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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 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 standard 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 different. 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 \end{itemize}
59
60 An up-to-date list can be obtained by looking in the comments of the function
61 \helpref{wxDb::Dbms}{wxdbdbms} in db.cpp, or in the enumerated type
62 \helpref{wxDBMS}{wxdbenumeratedtypes} in db.h.
63
64 **dBase is not truly an ODBC datasource, but there are drivers which can
65 emulate much of the functionality of an ODBC connection to a dBase table.
66 See the \helpref{wxODBC Known Issues}{wxodbcknownissues} section of this
67 overview for details.
68
69
70 \subsection{wxODBC Where To Start}\label{wxodbcwheretostart}
71
72 First, if you are not familiar with SQL and ODBC, go to your local bookstore
73 and pick up a good book on each. This documentation is not meant to teach
74 you many details about SQL or ODBC, though you may learn some just from
75 immersion in the subject.
76
77 If you have worked with non-SQL/ODBC datasources before, there are some
78 things you will need to un-learn. First some terminology as these phrases will
79 be used heavily in this section of the manual.
80
81 \begin{twocollist}\itemsep=0pt
82 \twocolitem{Datasource}{(usually a database) that contains the data that will be
83 accessed by the wxODBC classes.}
84 \twocolitem{Data table}{The section of the datasource that contains the rows and
85 columns of data.}
86 \twocolitem{ODBC driver}{The middle-ware software that interprets the ODBC
87 commands sent by your application and converts them to the SQL format expected
88 by the target datasource.}
89 \twocolitem{Datasource connection}{An open pipe between your application and
90 the ODBC driver which in turn has a connection to the target datasource.
91 Datasource connections can have a virtually unlimited number of wxDbTable
92 instances using the same connect (dependent on the ODBC driver). A separate
93 connection is not needed for each table (the exception is for isolating
94 commits/rollbacks on different tables from affecting more than the desired
95 table. See the class documentation on
96 \helpref{wxDb::CommitTrans}{wxdbcommittrans} and
97 \helpref{wxDb::RollbackTrans}{wxdbrollbacktrans}.}
98 \twocolitem{Rows}{Similar to records in old relational databases, a row is a
99 collection of one instance of each column of the data table that are all
100 associated with each other.}
101 \twocolitem{Columns}{Individual fields associated with each row of a data
102 table.}
103 \twocolitem{Query}{Request from the client to the datasource asking for
104 the data that matches the requirements specified in the users request. When
105 a query is performed, the datasource performs the lookup of the rows with
106 satisfy the query, and creates a result set.}
107 \twocolitem{Result set}{The data which matches the requirements specified
108 in a query sent to the datasource. Dependent on drivers, a result set
109 typically remains at the datasource (no data is transmitted to the ODBC driver)
110 until the client actually instructs the ODBC driver to retrieve it.}
111 \twocolitem{Cursor}{a logical pointer into the result set that a query
112 generates, indicating the next record that will be returned to the client
113 when a request for the next record is made.}
114 \twocolitem{Scrolling cursors}{Scrolling refers to the movement of cursors
115 through the result set. Cursors can always scroll forward sequentially in
116 the result set (FORWARD ONLY scrolling cursors). With Forward only scrolling
117 cursors, once a row in the result set has been returned to the ODBC driver
118 and on to the client, there is no way to have the cursor move backward in
119 the result set to look at the row that is previous to the current row in
120 the result set. If BACKWARD scrolling cursors are supported by both the
121 ODBC driver and the datasource that are being used, then backward
122 scrolling cursor functions may be used (
123 \helpref{wxDbTable::GetPrev}{wxdbtablegetprev},
124 \helpref{wxDbTable::GetFirst}{wxdbtablegetfirst}, and
125 \helpref{wxDbTable::GetLast}{wxdbtablegetlast}). If the datasource or the
126 ODBC driver only support forward scrolling cursors, your program and logic
127 must take this in to account.}
128 \twocolitem{Commit/Rollback}{Commit will physically save
129 insertions/deletions/updates, while rollback basically does an undo of
130 everything done against the datasource connection that has not been
131 previously committed. Note that Commit and Rollbacks are done on a
132 connection, not on individual tables. All tables which use a shared
133 connection to the datasource are all committed/rolled back at the same
134 time when a call to
135 \helpref{wxDb::CommitTrans}{wxdbcommittrans} or
136 \helpref{wxDb::RollbackTrans}{wxdbrollbacktrans} is made.}
137 \twocolitem{Index}{Indexes are datasource maintained lookup structures
138 that allow the datasource to quickly locate data rows based on the values
139 of certain columns. Without indexes, the datasource would need to do a
140 sequential search of a table every time a query request is made. Proper
141 unique key index construction can make datasource queries nearly instantaneous.}
142 \end{twocollist}
143
144 Before you are able to read data from a data table in a datasource, you must
145 have a connection to the datasource. Each datasource connection may be used
146 to open multiple tables all on the same connection (number of tables open are
147 dependent on the driver, datasource configuration and the amount of memory on
148 the client workstation). Multiple connections can be opened to the same
149 datasource by the same client (number of concurrent connections is dependent
150 on the driver and datasource configuration).
151
152 When a query is performed, the client passes the query to the ODBC driver,
153 and the driver then translates it and passes it along to the datasource. The
154 database engine (in most cases - exceptions are text and dBase files) running
155 on the machine hosting the database does all the work of performing the search
156 for the requested data. The client simply waits for a status to come back
157 through the ODBC driver from the datasource.
158
159 Depending on the ODBC driver, the result set either remains "queued" on the
160 database server side, or is transferred to the machine that the driver is
161 queued on. The client does not receive this data. The client must request
162 some or all of the result set to be returned before any data rows are
163 returned to the client application.
164
165 Result sets do not need to include all columns of every row matching the
166 query. In fact, result sets can actually be joinings of columns from two
167 or more data tables, may have derived column values, or calculated values
168 returned.
169
170 For each result set, a cursor is maintained (typically by the database)
171 which keeps track of where in the result set the user currently is.
172 Depending on the database, ODBC driver, and how you configured the
173 wxWindows ODBC settings in setup.h (see \helpref{wxODBC - Compiling}{wxodbccompiling}), cursors can be
174 either forward or backward scrolling. At a minim, cursors must scroll
175 forward. For example, if a query resulted in a result set with 100 rows,
176 as the data is read by the client application, it will read row 1, then 2,
177 then 3, etc, etc. With forward only cursors, once the cursor has moved to
178 the next row, the previous row cannot be accessed again without re-querying
179 the datasource for the result set over again. Backward scrolling cursors
180 allow you to request the previous row from the result set, actually
181 scrolling the cursor backward.
182
183 Backward scrolling cursors are not supported on all database/driver
184 combinations. For this reason, forward-only cursors are the default in
185 the wxODBC classes. If your datasource does support backward scrolling
186 cursors and you wish to use them, make the appropriate changes in setup.h
187 to enable them (see \helpref{wxODBC - Compiling}{wxodbccompiling}). For greatest portability between
188 datasources, writing your program in such a way that it only requires
189 forward scrolling cursors is your best bet. On the other hand, if you are
190 focusing on using only datasources that support backward scrolling cursors,
191 potentially large performance benefits can be gained from using them.
192
193 There is a limit to the number of cursors that can be open on each connection
194 to the datasource, and usually a maximum number of cursors for the datasource
195 itself. This is all dependent on the database. Each connection that is
196 opened (each instance of a wxDb) opens a minimum of 5 cursors for on creation
197 that are required for things such as updates/deletions/rollbacks/queries.
198 Cursors are a limited resource, so use care in creating large numbers of
199 cursors.
200
201 Additional cursors can be created if necessary with the
202 \helpref{wxDbTable::GetNewCursor}{wxdbtablegetnewcursor} function. One example
203 use for additional cursors are to track multiple scroll points in result
204 sets. By creating a new cursor, a program could request a second result set
205 from the datasource while still maintaining the original cursor position in
206 the first result set.
207
208 Different than non-SQL/ODBC datasources, when a program performs an
209 insertion, deletion, or update (or other SQL functions like altering
210 tables, etc) through ODBC, the program must issue a "commit" to the
211 datasource to tell the datasource that the action(s) it has been told to
212 perform are to be recorded as permanent. Until a commit is performed,
213 any other programs that query the datasource will not see the changes that
214 have been made (although there are databases that can be configured to
215 auto-commit). NOTE: With most all datasources, until the commit is
216 performed, any cursor that is open on that same datasource connection
217 will be able to see the changes that are uncommitted. Check your
218 database's documentation/configuration to verify this before counting on it
219 though.
220
221 A rollback is basically an UNDO command on the datasource connection. When
222 a rollback is issued, the datasource will flush all commands it has been told
223 to do since the last commit that was performed.
224
225 NOTE: Commits/Rollbacks are done on datasource connections (wxDb instances)
226 not on the wxDbTable instances. This means that if more than one table
227 shares the same connection, and a commit or rollback is done on that
228 connection, all pending changes for ALL tables using that connection are
229 committed/rolled back.
230
231
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. Rumor 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 think of 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 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 (http://www.iodbc.org) and install iODBC.
261 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
279
280 \subsection{wxODBC - Compiling}\label{wxodbccompiling}
281
282 The wxWindows setup.h file has several settings in it pertaining to compiling
283 the wxODBC classes.
284
285 \begin{twocollist}\itemsep=0pt
286 \twocolitem{wxUSE_ODBC}{This must be set to 1 in order for the compiler to
287 compile the wxODBC classes. Without setting this to 1, there will be no
288 access to any of the wxODBC classes. The default is 0.}
289 \twocolitem{wxODBC_FWD_ONLY_CURSORS}{When a new database connection is
290 requested, this setting controls the default of whether the connection allows
291 only forward scrolling cursors, or forward and backward scrolling cursors
292 (see the section in "WHERE TO START" on cursors for more information on
293 cursors). This default can be overridden by passing a second parameter to
294 either the \helpref{wxDbGetConnection}{wxdbfunctions} or
295 \helpref{wxDb constructor}{wxdbconstr}. The default is 1.}
296 \twocolitem{wxODBC_BACKWARD_COMPATABILITY}{Between v2.0 and 2.2, massive
297 renaming efforts were done to the ODBC classes to get naming conventions
298 similar to those used throughout wxWindows, as well as to preface all wxODBC
299 classes names and functions with a wxDb preface. Because this renaming would
300 affect applications written using the v2.0 names, this compile-time directive
301 was added to allow those programs written for v2.0 to still compile using the
302 old naming conventions. These deprecated names are all #define'd to their
303 corresponding new function names at the end of the db.cpp/dbtable.cpp source
304 files. These deprecated class/function names should not be used in future
305 development, as at some point in the future they will be removed. The default
306 is 0.}
307 \end{twocollist}
308
309 {\it Under MS Windows}
310
311 You are required to include the "odbc32.lib" provided by your compiler vendor
312 in the list of external libraries to be linked in. If using the makefiles
313 supplied with wxWindows, this library should already be included for use with
314 makefile.b32, makefile.vc, and makefile.g95.
315
316 You cannot compile the wxODBC classes under Win16 - sorry.
317
318 \normalbox{MORE TO COME}
319
320 {\it Under Unix}
321 --with-iodbc flag for configure
322
323 \normalbox{MORE TO COME}
324
325
326
327 \subsection{wxODBC - Basic Step-By-Step Guide}\label{wxodbcstepbystep}
328
329 To use the classes in an application, there are eight basic steps:
330
331 \begin{itemize}\itemsep=0pt
332 \item Define datasource connection information
333 \item Get a datasource connection
334 \item Create table definition
335 \item Open the table
336 \item Use the table
337 \item Close the table
338 \item Close the datasource connection
339 \item Release the ODBC environment handle
340 \end{itemize}
341
342 Following each of these steps is detailed to explain the step, and to
343 hopefully mention as many of the pitfalls that beginning users fall in
344 to when first starting to use the classes. Throughout the steps, small
345 snippets of code are shown to show the syntax of performing the step. A
346 complete code snippet is provided at the end of this overview that shows a
347 complete working flow of all these steps (see
348 \helpref{wxODBC - Sample Code #1}{wxodbcsamplecode1}).
349
350
351 {\bf Define datasource connection information}
352
353 To be able to connect to a datasource through the ODBC driver, a program must
354 supply a minimum of three pieces of information: Datasource name, User ID, and
355 Authorization string (password). A fourth piece of information, a default
356 directory indicating where the data file is stored, is required for Text and
357 dBase drivers for ODBC.
358
359 The wxWindows data structure "wxDbConnectInf" exists for holding all of these
360 values, plus some others that may be desired.
361
362 \begin{verbatim}
363 wxDbConnectInf
364 HENV Henv;
365 char Dsn[SQL_MAX_DSN_LENGTH+1] // DataSource Name
366 char Uid[20+1] // User ID
367 char AuthStr[20+1] // Authorization (password)
368
369 // Optional needed for some databases like dBase, FoxPro and TEXT files
370 char defaultDir[wxDB_PATH_MAX] // Directory that db file resides in
371
372 char description[SQL_MAX_DSN_LENGTH+1];
373 char fileType[SQL_MAX_DSN_LENGTH+1];
374 \end{verbatim}
375
376 The 'Henv' member is the environment handle used to access memory for use by the
377 ODBC driver. Use of this member is described below in the "Getting a Connection
378 to the Datasource" section.
379
380 The 'Dsn' must exactly match the datasource name used to configure the ODBC
381 datasource (in the ODBC Administrator (MSW only) or in the .odbc.ini file).
382
383 The 'Uid' is the User ID that is to be used to log in to the datasource. This
384 User ID must already have been created and assigned rights within the
385 datasource to which you are connecting. The user that the connection is
386 establish by will determine what rights and privileges the datasource
387 connection will allow the program to have when using the connection that
388 this connection information was used to establish. Some datasources are
389 case sensitive for User IDs, and though the wxODBC classes attempt to hide
390 this from you by manipulating whatever data you pass in to match the
391 datasource's needs, it is always best to pass the 'Uid' in the case that
392 the datasource requires.
393
394 The 'AuthStr' is the password for the User ID specified in the 'Uid' member.
395 As with the 'Uid', some datasources are case sensitive (in fact most are).
396 The wxODBC classes do NOT try to manage the case of the 'AuthStr' at all.
397 It is passed verbatim to the datasource, so you must use the case that the
398 datasource is expecting.
399
400 The 'defaultDir' member is used with file based datasources (i.e. dBase,
401 FoxPro, text files). It contains a full path to the location where the
402 data table or file is located. When setting this value, use forward
403 slashes '/' rather than backslashes '\' to avoid compatibility differences
404 between ODBC drivers.
405
406 The other fields are currently unused. The intent of these fields are that
407 they will be used to write our own ODBC Administrator type program that will
408 work on both MSW and Un*x systems, regardless of the datasource. Very little
409 work has been done on this to date.
410
411
412 {\bf Get a Datasource Connection}
413
414 There are two methods of establishing a connection to a datasource. You
415 may either manually create your own wxDb instance and open the connection,
416 or you may use the caching functions provided with the wxODBC classes to
417 create/maintain/delete the connections.
418
419 Regardless of which method you use, you must first have a fully populated
420 wxDbConnectInf object. In the wxDbConnectInf instance, provide a valid
421 Dns, Uid, and AuthStr (along with a 'defaultDir' if necessary). Before
422 using this though, you must allocate an environment handle to the 'Henv'
423 member.
424
425 \begin{verbatim}
426 wxDbConnectInf DbConnectInf;
427 wxStrcpy(DbConnectInf.Dsn, "Your DSN");
428 wxStrcpy(DbConnectInf.Uid, "YourUserName");
429 wxStrcpy(DbConnectInf.AuthStr, "YourUserPassword");
430 wxStrcpy(DbConnectInf.defaultDir, "");
431 \end{verbatim}
432
433 To allocate an environment handle for the ODBC connection to use, the
434 standard SQLAllocEnv() function is used.
435
436 \begin{verbatim}
437 if (SQLAllocEnv(&DbConnectInf.Henv) != SQL_SUCCESS)
438 {
439 wxMessageBox("Unable to allocate an ODBC environment handle",
440 "DB CONNECTION ERROR", wxOK | wxICON_EXCLAMATION);
441 return;
442 }
443 \end{verbatim}
444
445 When the SQLAllocEnv() function is called successfully, a value of
446 SQL_SUCCESS will be returned. Anything other return value is a failure
447 to create the handle, and the handle will be undefined.
448
449 Once the members of the wxDbConnectInf structure are initialized, you are
450 now ready to connect to the datasource.
451
452 To manually create datasource connections, you must create a wxDb
453 instance, and then open it.
454
455 \begin{verbatim}
456 wxDb *db = new wxDb(DbConnectInf.Henv);
457 opened = db->Open(DbConnectInf.Dsn, DbConnectInf.Uid,
458 DbConnectInf.AuthStr);
459 \end{verbatim}
460
461 The first line does the house keeping needed to initialize everything all
462 the members of the wxDb class. The second line actually sends the request
463 to the ODBC driver to open a connection to its associated datasource using
464 the parameters supplied in the call to \helpref{wxDb::Open}{wxdbopen}.
465
466 A more advanced form of opening a connection is to used the connection
467 caching functions that are included with the wxODBC classes. The caching
468 mechanisms do the same functions are the manual approach to opening a
469 connection, but they also manage each connection they have created,
470 re-using them and cleaning them up when they are closed, without you
471 programmatically needing to do the coding.
472
473 To use the caching function \helpref{wxDbGetConnection}{wxdbfunctions} to get
474 a connection to a datasource, simply call it with a single parameter of the
475 type wxDbConnectInf:
476
477 \begin{verbatim}
478 db = wxDbGetConnection(&DbConnectInf);
479 \end{verbatim}
480
481 The wxDb pointer that is returned is both initialized and opened. If
482 something failed in creating or opening the connection, the return value
483 from \helpref{wxDbGetConnection}{wxdbfunctions} will be NULL.
484
485 The connection that is returned is either a new connection, or it is a
486 "free" connection from the cache of connections that the class maintains
487 that was no longer in use. Any wxDb instance created with a call to
488 \helpref{wxDbGetConnection}{wxdbfunctions} is kept track of in a linked list of established
489 connections. When a program is done with a connection, a call to
490 \helpref{wxDbFreeConnection}{wxdbfunctions} is made, and the datasource
491 connection will then be tagged as FREE, making it available for the next
492 call to \helpref{wxDbGetConnection}{wxdbfunctions} that needs a connection
493 using the same connection information (Dsn, Uid, AuthStr). The cached
494 connections remain cached until a call to \helpref{wxDbCloseConnections}{wxdbfunctions} is made,
495 at which time all cached connections are closed and deleted.
496
497 Besides the obvious advantage of using the single command caching routine to
498 obtain a datasource connection, using cached connections can be quite a
499 performance boost as well. Each time that a new connection is created
500 (not retrieved from the cache of free connections), the wxODBC classes
501 perform many queries against the datasource to determine the datasource's
502 datatypes and other fundamental behaviors. Depending on the hardware,
503 network bandwidth, and datasource speed, this can in some cases take a
504 few seconds to establish the new connection (with well balanced systems,
505 it should only be a fraction of a second). Re-using already established
506 datasource connections rather than creating/deleting, creating/deleting
507 connections can be quite a time saver.
508
509 Another time saver is the "copy connection" features of both
510 \helpref{wxDb::Open}{wxdbopen} and \helpref{wxDbGetConnection}{wxdbfunctions}.
511 If manually creating a wxDb instance and opening it, you must pass an existing
512 connection to the \helpref{wxDb::Open}{wxdbopen} function yourself to gain the performance
513 benefit of copying existing connection settings. The
514 \helpref{wxDbGetConnection}{wxdbfunctions} function automatically does this
515 for you, checking the Dsn, Uid, and AuthStr parameters when you request
516 a connection for any existing connections that use those same settings.
517 If one is found, \helpref{wxDbGetConnection}{wxdbfunctions} copies the datasource settings for
518 datatypes and other datasource specific information that was previously
519 queried, rather than re-querying the datasource for all those same settings.
520
521 One final note on creating a connection. When a connection is created, it
522 will default to only allowing cursor scrolling to be either forward only,
523 or both backward and forward scrolling cursors. The default behavior is
524 determined by the setting "wxODBC_FWD_ONLY_CURSORS" in setup.h when you
525 compile the wxWindows library. The library default is to only support
526 forward scrolling cursors only, though this can be overridden by parameters
527 for wxDb() constructor or the \helpref{wxDbGetConnection}{wxdbfunctions}
528 function. All datasources and ODBC drivers must support forward scrolling
529 cursors. Many datasources support backward scrolling cursors, and many
530 ODBC drivers support backward scrolling cursors. Before planning on using
531 backward scrolling cursors, you must be certain that both your datasource
532 and ODBC driver fully support backward scrolling cursors. See the small
533 blurb about "Scrolling cursors" in the definitions at the beginning of
534 this overview, or other details of setting the cursor behavior in the wxDb
535 class documentation.
536
537
538 {\bf Create Table Definition}
539
540 Data can be accessed in a datasource's tables directly through various
541 functions of the wxDb class (see \helpref{wxDb::GetData}{wxdbgetdata}). But to make life much
542 simpler, the wxDbTable class encapsulates all of the SQL specific API calls
543 that would be necessary to do this, wrapping it in an intuitive class of APIs.
544
545 The first step in accessing data in a datasource's tables via the wxDbTable
546 class is to create a wxDbTable instance.
547
548 \begin{verbatim}
549 table = new wxDbTable(db, tableName, numTableColumns, 0,
550 !wxDB_QUERY_ONLY, NULL);
551 \end{verbatim}
552
553 When you create the instance, you indicate the previously established
554 datasource connection to be used to access the table, the name of the
555 primary table that is to be accessed with the datasource's tables, how many
556 columns of each row are going to be returned, the name of the view of the
557 table that will actually be used to query against (works with Oracle only
558 at this time), whether the data returned is for query purposes only, and
559 finally the path to the table, if different than the path specified when
560 connecting to the datasource.
561
562 Each of the above parameters are described in detail in the wxDbTable
563 class' description, but one special note here about the fifth
564 parameter - queryOnly setting. If a wxDbTable instance is created as
565 wxDB_QUERY_ONLY, then no inserts/deletes/updates are able to be performed
566 using this instance of the wxDbTable. Any calls to \helpref{wxDb::CommitTrans}{wxdbcommittrans}
567 or \helpref{wxDb::RollbackTrans}{wxdbrollbacktrans} against the datasource
568 connection used by this wxDbTable instance are ignored by this instance. If
569 the wxDbTable instance is created with "!wxDB_QUERY_ONLY" as shown above,
570 then all the cursors and other overhead associated with being able to
571 insert/update/delete data in the table are created, and thereby those
572 operations can then be performed against the associated table with this
573 wxDbTable instance.
574
575 If a table is to be accessed via a wxDbTable instance, and the table will
576 only be read from, not written to, there is a performance benefit (not as
577 many cursors need to be maintained/updated, hence speeding up access times),
578 as well as a resource savings due to fewer cursors being created for the
579 wxDbTable instance. Also, with some datasources, the number of
580 simultaneous cursors is limited.
581
582 When defining the columns to be retrievable by the wxDbTable instance, you
583 can specify anywhere from one column up to all columns in the table.
584
585 \begin{verbatim}
586 table->SetColDefs(0, "FIRST_NAME", DB_DATA_TYPE_VARCHAR, FirstName,
587 SQL_C_CHAR, sizeof(name), TRUE, TRUE);
588 table->SetColDefs(1, "LAST_NAME", DB_DATA_TYPE_VARCHAR, LastName,
589 SQL_C_CHAR, sizeof(LastName), TRUE, TRUE);
590 \end{verbatim}
591
592 Notice that column definitions start at index 0 and go up to one less than
593 the number of columns specified when the wxDbTable instance was created
594 (in this example, two columns - one with index 0, one with index 1).
595
596 The above lines of code "bind" the datasource columns specified to the
597 memory variables in the client application. So when the application
598 makes a call to \helpref{wxDbTable::GetNext}{wxdbtablegetnext} (or any other function that retrieves
599 data from the result set), the variables that are bound to the columns will
600 have the column value stored into them. See the
601 \helpref{wxDbTable::SetColDefs}{wxdbtablesetcoldefs}
602 class documentation for more details on all the parameters for this function.
603
604 The bound memory variables have undefined data in them until a call to a
605 function that retrieves data from a result set is made
606 (e.g. \helpref{wxDbTable::GetNext}{wxdbtablegetnext},
607 \helpref{wxDbTable::GetPrev}{wxdbtablegetprev}, etc). The variables are not
608 initialized to any data by the wxODBC classes, and they still contain
609 undefined data after a call to \helpref{wxDbTable::Query}{wxdbtablequery}. Only
610 after a successful call to one of the ::GetXxxx() functions is made do the
611 variables contain valid data.
612
613 It is not necessary to define column definitions for columns whose data is
614 not going to be returned to the client. For example, if you want to query
615 the datasource for all users with a first name of 'GEORGE', but you only want
616 the list of last names associated with those rows (why return the FIRST_NAME
617 column every time when you already know it is 'GEORGE'), you would only have
618 needed to define one column above.
619
620 You may have as many wxDbTable instances accessing the same table using the
621 same wxDb instance as you desire. There is no limit imposed by the classes
622 on this. All datasources supported (so far) also have no limitations on this.
623
624
625 {\bf Open the table}
626
627 Opening the table technically is not doing anything with the datasource
628 itself. Calling \helpref{wxDbTable::Open}{wxdbtableopen} simply does all the
629 house keeping of checking that the specified table exists, that the current
630 connected user has at least SELECT privileges for accessing the table,
631 setting up the requisite cursors, binding columns and cursors, and
632 constructing the default INSERT statement that is used when a new row is
633 inserted into the table (non-wxDB_QUERY_ONLY tables only).
634
635 \begin{verbatim}
636 if (!table->Open())
637 {
638 // An error occurred opening (setting up) the table
639 }
640 \end{verbatim}
641
642 The only reason that a call to \helpref{wxDbTable::Open}{wxdbtableopen} will likely fail is if the
643 user has insufficient privileges to even SELECT the table. Other problems
644 could occur, such as being unable to bind columns, but these other reason
645 point to some lack of resource (like memory). Any errors generated
646 internally in the \helpref{wxDbTable::Open}{wxdbtableopen} function are logged to the error log
647 if SQL logging is turned on for the classes.
648
649
650 {\bf Use the table}
651
652 To use the table and the definitions that are now set up, we must first
653 define what data we want the datasource to collect in to a result set, tell
654 it where to get the data from, and in what sequence we want the data returned.
655
656 \begin{verbatim}
657 // the WHERE clause limits/specifies which rows in the table
658 // are to be returned in the result set
659 table->SetWhereClause("FIRST_NAME = 'GEORGE'");
660
661 // Result set will be sorted in ascending alphabetical
662 // order on the data in the 'LAST_NAME' column of each row
663 // If the same last name is in the table for two rows,
664 // sub-sort on the 'AGE' column
665 table->SetOrderByClause("LAST_NAME, AGE");
666
667 // No other tables (joins) are used for this query
668 table->SetFromClause("");
669 \end{verbatim}
670
671 The above lines will be used to tell the datasource to return in the result
672 all the rows in the table whose column "FIRST_NAME" contains the name
673 'GEORGE' (note the required use of the single quote around the string
674 literal) and that the result set will return the rows sorted by ascending
675 last names (ascending is the default, and can be overridden with the
676 "DESC" keyword for datasources that support it - "LAST_NAME DESC").
677
678 Specifying a blank WHERE clause will result in the result set containing
679 all rows in the datasource.
680
681 Specifying a blank ORDERBY clause means that the datasource will return
682 the result set in whatever sequence it encounters rows which match the
683 selection criteria. What this sequence is can be hard to determine.
684 Typically it depends on the index that the datasource used to find the
685 rows which match the WHERE criteria. BEWARE - relying on the datasource
686 to return data in a certain sequence when you have not provided an ORDERBY
687 clause will eventually cause a problem for your program. Databases can be
688 tuned to be COST-based, SPEED-based, or some other basis for how it gets
689 your result set. In short, if you need your result set returned in a
690 specific sequence, ask for it that way by providing an ORDERBY clause.
691
692 Using an ORDERBY clause can be a performance hit, as the database must
693 sort the items before making the result set available to the client.
694 Creating efficient indexes that cause the data to be "found" in the correct
695 ORDERBY sequence can be a big performance benefit. Also, in the large
696 majority of cases, the database will be able to sort the records faster
697 than your application can read all the records in (unsorted) and then sort
698 them. Let the database do the work for you!
699
700 Notice in the example above, a column that is not included in the bound
701 data columns ('AGE') will be used to sub-sort the result set.
702
703 The FROM clause in this example is blanked, as we are not going to be
704 performing any table joins with this simple query. When the FROM clause
705 is blank, it is assumed that all columns referenced are coming from
706 the default table for the wxDbTable instance.
707
708 After the selection criteria have been specified, the program can now
709 ask the datasource to perform the search and create a result set that
710 can be retrieved:
711
712 \begin{verbatim}
713 // Instruct the datasource to perform a query based on the
714 // criteria specified above in the where/orderBy/from clauses.
715 if (!table->Query())
716 {
717 // An error occurred performing the query
718 }
719 \end{verbatim}
720
721 Typically, when an error occurs when calling \helpref{wxDbTable::Query}{wxdbtablequery}, it is a
722 syntax problem in the WHERE clause that was specified. The exact SQL
723 (datasource specific) reason for what caused the failure of \helpref{wxDbTable::Query}{wxdbtablequery}
724 (and all other operations against the datasource can be found by
725 parsing the table's database connection's "errorList[]" array member for
726 the stored text of the error.
727
728 When the \helpref{wxDbTable::Query}{wxdbtablequery} returns TRUE, the
729 database was able to successfully complete the requested query using the
730 provided criteria. This does not mean that there are any rows in the
731 result set, it just mean that the query was successful.
732
733 \normalbox{IMPORTANT: The result created by the call to
734 \helpref{wxDbTable::Query}{wxdbtablequery} can be one of two forms. It is
735 either a snapshot of the data at the exact moment that the database
736 determined the record matched the search criteria, or it is a pointer to
737 the row that matched the selection criteria. Which form of behavior is
738 datasource dependent. If it is a snapshot, the data may have changed
739 since the result set was constructed, so beware if your datasource
740 uses snapshots and call \helpref{wxDbTable::Refresh}{wxdbtablerefresh}. Most larger brand databases
741 do not use snapshots, but it is important to mention so that your application
742 can handle it properly if your datasource does. }
743
744 To retrieve the data, one of the data fetching routines must be used to
745 request a row from the result set, and to store the data from the result
746 set into the bound memory variables. After \helpref{wxDbTable::Query}{wxdbtablequery}
747 has completed successfully, the default/current cursor is placed so it
748 is pointing just before the first record in the result set. If the
749 result set is empty (no rows matched the criteria), then any calls to
750 retrieve data from the result set will return FALSE.
751
752 \begin{verbatim}
753 wxString msg;
754
755 while (table->GetNext())
756 {
757 msg.Printf("Row #%lu -- First Name : %s Last Name is %s",
758 table->GetRowNum(), FirstName, LastName);
759 wxMessageBox(msg, "Data", wxOK | wxICON_INFORMATION, NULL);
760 }
761 \end{verbatim}
762
763 The sample code above will read the next record in the result set repeatedly
764 until the end of the result set has been reached. The first time that
765 \helpref{wxDbTable::GetNext}{wxdbtablegetnext} is called right after the successful
766 call to \helpref{wxDbTable::Query}{wxdbtablequery}, it actually returns the first record
767 in the result set.
768
769 When \helpref{wxDbTable::GetNext}{wxdbtablegetnext} is called and there are
770 no rows remaining in the result set after the current cursor position,
771 \helpref{wxDbTable::GetNext}{wxdbtablegetnext} (as well as all the other
772 wxDbTable::GetXxxxx() functions) will return FALSE.
773
774
775 {\bf Close the table}
776
777 When the program is done using a wxDbTable instance, it is as simple as
778 deleting the table pointer (or if declared statically, letting the
779 variable go out of scope). Typically the default destructor will take
780 care of all that is required for cleaning up the wxDbTable instance.
781
782 \begin{verbatim}
783 if (table)
784 {
785 delete table;
786 table = NULL;
787 }
788 \end{verbatim}
789
790 Deleting a wxDbTable instance releases all of its cursors, deletes the
791 column definitions and frees the SQL environment handles used by the
792 table (but not the environment handle used by the datasource connection
793 that the wxDbTable instance was using).
794
795
796
797 {\bf Close the datasource connection}
798
799 After all tables that have been using a datasource connection have been
800 closed (this can be checked by calling \helpref{wxDb::GetTableCount}{wxdbgettablecount}
801 and checking that it returns 0), then you may close the datasource
802 connection. The method of doing this is dependent on whether the
803 non-caching or caching method was used to obtain the datasource connection.
804
805 If the datasource connection was created manually (non-cached), closing the
806 connection is done like this:
807
808 \begin{verbatim}
809 if (db)
810 {
811 db->Close();
812 delete db;
813 db = NULL;
814 }
815 \end{verbatim}
816
817 If the program used the \helpref{wxDbGetConnection}{wxdbfunctions} function to get a datasource
818 connection, the following is the code that should be used to free the
819 connection(s):
820
821 \begin{verbatim}
822 if (db)
823 {
824 wxDbFreeConnection(db);
825 db = NULL;
826 }
827 \end{verbatim}
828
829 Note that the above code just frees the connection so that it can be
830 re-used on the next call the \helpref{wxDbGetConnection}{wxdbfunctions}. To actually dispose
831 of the connection, releasing all of its resources (other than the
832 environment handle), do the following:
833
834 \begin{verbatim}
835 wxDbCloseConnections();
836 \end{verbatim}
837
838
839 {\bf Release the ODBC environment handle}
840
841 Once all of the connections that used the ODBC environment handle (in
842 this example it was stored in "DbConnectInf.Henv") have been closed, then
843 it is safe to release the environment handle:
844
845 \begin{verbatim}
846 SQLFreeEnv(DbConnectInf.Henv);
847
848 \end{verbatim}
849
850 \normalbox{Remember to never release this environment handle if there are any
851 connections still using the handle.
852 }
853
854
855 \subsection{wxODBC - Known Issues}\label{wxodbcknownissues}
856
857 As with creating wxWindows, writing the wxODBC classes was not the simple
858 task of writing an application to run on a single type of computer system.
859 The classes need to be cross-platform for different operating systems, and
860 they also needed to take in to account different database manufacturers and
861 different ODBC driver manufacturers. Because of all the possible combinations
862 of OS/database/drivers, it is impossible to say that these classes will work
863 perfectly with datasource ABC, ODBC driver XYZ, on platform LMN. You may run
864 in to some incompatibilities or unsupported features when moving your
865 application from one environment to another. But that is what makes
866 cross-platform programming fun. It is also pinpoints one of the great
867 things about open source software. It can evolve!
868
869 The most common difference between different database/ODBC driver
870 manufacturers in regards to these wxODBC classes is the lack of
871 standard error codes being returned to the calling program. Sometimes
872 manufacturers have even changed the error codes between versions of
873 their databases/drivers.
874
875 In all the tested databases, every effort has been made to determine
876 the correct error codes and handle them in the class members that need
877 to check for specific error codes (such as TABLE DOES NOT EXIST when
878 you try to open a table that has not been created yet). Adding support
879 for additional databases in the future requires adding an entry for the
880 database in the \helpref{wxDb::Dbms}{wxdbdbms} function, and then handling any error codes
881 returned by the datasource that do not match the expected values.
882
883
884 {\bf Databases}
885
886 Following is a list of known issues and incompatibilities that the
887 wxODBC classes have between different datasources. An up to date
888 listing of known issues can be seen in the comments of the source
889 for \helpref{wxDb::Dbms}{wxdbdbms}.
890
891 {\it ORACLE}
892 \begin{itemize}\itemsep=0pt
893 \item Currently the only database supported by the wxODBC classes to support VIEWS
894 \end{itemize}
895
896 {\it DBASE}
897
898 NOTE: dBase is not a true ODBC datasource. You only have access to as much
899 functionality as the driver can emulate.
900
901 \begin{itemize}\itemsep=0pt
902 \item Does not support the SQL_TIMESTAMP structure
903 \item Supports only one cursor and one connect (apparently? with Microsoft driver only?)
904 \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}
905 \item Table names can only be 8 characters long
906 \item Column names can only be 10 characters long
907 \item Currently cannot CREATE a dBase table - bug or limitation of the drivers used??
908 \item Currently cannot insert rows that have integer columns - bug??
909 \end{itemize}
910
911 {\it SYBASE (all)}
912 \begin{itemize}\itemsep=0pt
913 \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
914 \item Ignores the keywords 'FOR UPDATE'. Use the HOLDLOCK functionality described above
915 \end{itemize}
916
917 {\it SYBASE (Enterprise)}
918 \begin{itemize}\itemsep=0pt
919 \item If a column is part of the Primary Key, the column cannot be NULL
920 \item Maximum row size is somewhere in the neighborhood of 1920 bytes
921 \end{itemize}
922
923 {\it MY_SQL}
924 \begin{itemize}\itemsep=0pt
925 \item If a column is part of the Primary Key, the column cannot be NULL.
926 \item Cannot support selecting for update [\helpref{wxDbTable::CanSelectForUpdate}{wxdbtablecanselectforupdate}]. Always returns FALSE.
927 \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)
928 \item Does not support sub-queries in SQL statements
929 \end{itemize}
930
931 {\it POSTGRES}
932 \begin{itemize}\itemsep=0pt
933 \item Does not support the keywords 'ASC' or 'DESC' as of release v6.5.0
934 \item Does not support sub-queries in SQL statements
935 \end{itemize}
936
937 {\it DB2}
938 \begin{itemize}\itemsep=0pt
939 \item Columns which are part of a primary key must be declared as NOT NULL
940 \end{itemize}
941
942
943 {\bf UNICODE with wxODBC classes}
944
945 Currently there is no support for Unicode with the wxODBC classes. In
946 fact, Unicode builds must be disabled if wxWindows is compiled with
947 wxUSE_ODBC set to 1 in setup.h
948
949
950 \subsection{wxODBC - Sample Code #1}\label{wxodbcsamplecode1}
951
952 Simplest example of establishing/opening a connection to an ODBC datasource,
953 binding variables to the columns for read/write usage, opening an
954 existing table in the datasource, setting the query parameters
955 (where/orderBy/from), querying the datasource, reading each row of the
956 result set, then cleaning up.
957
958 NOTE: Not all error trapping is shown here, to reduce the size of the
959 code and to make it more easily readable.
960
961 \begin{verbatim}
962 struct wxDbConnectInf DbConnectInf;
963
964 wxDb *db = NULL; // The database connection
965 wxDbTable *table = NULL; // The data table to access
966
967 char FirstName[50+1]; // buffer for data from column "FIRST_NAME"
968 char LastName[50+1]; // buffer for data from column "LAST_NAME"
969
970 bool errorOccured = FALSE;
971
972 const char tableName[] = "CONTACTS";
973 const int numTableColumns = 2; // Number of bound columns
974
975 FirstName[0] = 0;
976 LastName[0] = 0;
977
978 // Initialize the ODBC Environment for database operations
979 // and store the handle in 'DbConnectInf.Henv'
980 if (SQLAllocEnv(&DbConnectInf.Henv) != SQL_SUCCESS)
981 {
982 wxMessageBox("Unable to allocate an ODBC environment handle",
983 "DB CONNECTION ERROR", wxOK | wxICON_EXCLAMATION);
984 return;
985 }
986
987 wxStrcpy(DbConnectInf.Dsn, "Your DSN");
988 wxStrcpy(DbConnectInf.Uid, "YourUserName");
989 wxStrcpy(DbConnectInf.AuthStr, "YourUserPassword");
990 wxStrcpy(DbConnectInf.defaultDir, "");
991
992 // Get a database connection from the cached connections
993 db = wxDbGetConnection(&DbConnectInf);
994
995 // Create the table connection
996 table = new wxDbTable(db, tableName, numTableColumns, 0,
997 !wxDB_QUERY_ONLY, NULL);
998
999 //
1000 // Bind the columns that you wish to retrieve. Note that there must be
1001 // 'numTableColumns' calls to SetColDefs(), to match the wxDbTable definition
1002 //
1003 // Not all columns need to be bound, only columns whose values are to be
1004 // returned back to the client.
1005 //
1006 table->SetColDefs(0, "FIRST_NAME", DB_DATA_TYPE_VARCHAR, FirstName,
1007 SQL_C_CHAR, sizeof(name), TRUE, TRUE);
1008 table->SetColDefs(1, "LAST_NAME", DB_DATA_TYPE_VARCHAR, LastName,
1009 SQL_C_CHAR, sizeof(LastName), TRUE, TRUE);
1010
1011 // Open the table for access
1012 table->Open();
1013
1014 // Set the WHERE clause to limit the result set to only
1015 // return all rows that have a value of 'GEORGE' in the
1016 // FIRST_NAME column of the table.
1017 table->SetWhereClause("FIRST_NAME = 'GEORGE'");
1018
1019 // Result set will be sorted in ascending alphabetical
1020 // order on the data in the 'LAST_NAME' column of each row
1021 table->SetOrderByClause("LAST_NAME");
1022
1023 // No other tables (joins) are used for this query
1024 table->SetFromClause("");
1025
1026 // Instruct the datasource to perform a query based on the
1027 // criteria specified above in the where/orderBy/from clauses.
1028 if (!table->Query())
1029 {
1030 wxMessageBox("Error on Query()","ERROR!",
1031 wxOK | wxICON_EXCLAMATION);
1032 errorOccured = TRUE;
1033 }
1034
1035 wxString msg;
1036
1037 // Start and continue reading every record in the table
1038 // displaying info about each record read.
1039 while (table->GetNext())
1040 {
1041 msg.Printf("Row #%lu -- First Name : %s Last Name is %s",
1042 table->GetRowNum(), FirstName, LastName);
1043 wxMessageBox(msg, "Data", wxOK | wxICON_INFORMATION, NULL);
1044 }
1045
1046 // If the wxDbTable instance was successfully created
1047 // then delete it as I am done with it now.
1048 if (table)
1049 {
1050 delete table;
1051 table = NULL;
1052 }
1053
1054 // If we have a valid wxDb instance, then free the connection
1055 // (meaning release it back in to the cache of datasource
1056 // connections) for the next time a call to wxDbGetConnection()
1057 // is made.
1058 if (db)
1059 {
1060 wxDbFreeConnection(db);
1061 db = NULL;
1062 }
1063
1064 // The program is now ending, so we need to close
1065 // any cached connections that are still being
1066 // maintained.
1067 wxDbCloseConnections();
1068
1069 // Release the environment handle that was created
1070 // for use with the ODBC datasource connections
1071 SQLFreeEnv(DbConnectInf.Henv);
1072
1073 \end{verbatim}
1074
1075
1076 \subsection{wxDatabase ODBC class overview [DEPRECATED]}\label{wxodbcoverview}
1077
1078 Classes: \helpref{wxDatabase}{wxdatabase}, \helpref{wxRecordSet}{wxrecordset}, \helpref{wxQueryCol}{wxquerycol},
1079 \rtfsp\helpref{wxQueryField}{wxqueryfield}
1080
1081 \normalboxd{The more sophisticated wxODBC classes (wxDb/wxDbTable) are the
1082 recommended classes for doing database/ODBC work with wxWindows. These new
1083 classes replace the wxWindows v1.6x classes wxDatabase.
1084
1085 Documentation for the old wxDatabase class and its associated classes is still
1086 included in the class documentation and in this overview section, but support
1087 for these old classes has been phased out, and all future development work
1088 is being done solely on the new wxDb/wxDbTable classes.}
1089
1090 wxWindows provides a set of classes for accessing a subset of Microsoft's ODBC (Open Database Connectivity)
1091 product. Currently, this wrapper is available under MS Windows only, although
1092 ODBC may appear on other platforms, and a generic or product-specific SQL emulator for the ODBC
1093 classes may be provided in wxWindows at a later date.
1094
1095 ODBC presents a unified API (Application Programmer's Interface) to a
1096 wide variety of databases, by interfacing indirectly to each database or
1097 file via an ODBC driver. The language for most of the database
1098 operations is SQL, so you need to learn a small amount of SQL as well as
1099 the wxWindows ODBC wrapper API. Even though the databases may not be
1100 SQL-based, the ODBC drivers translate SQL into appropriate operations
1101 for the database or file: even text files have rudimentary ODBC support,
1102 along with dBASE, Access, Excel and other file formats.
1103
1104 The run-time files for ODBC are bundled with many existing database
1105 packages, including MS Office. The required header files, sql.h and
1106 sqlext.h, are bundled with several compilers including MS VC++ and
1107 Watcom C++. The only other way to obtain these header files is from the
1108 ODBC SDK, which is only available with the MS Developer Network CD-ROMs
1109 -- at great expense. If you have odbc.dll, you can make the required
1110 import library odbc.lib using the tool `implib'. You need to have odbc.lib
1111 in your compiler library path.
1112
1113 The minimum you need to distribute with your application is odbc.dll, which must
1114 go in the Windows system directory. For the application to function correctly,
1115 ODBC drivers must be installed on the user's machine. If you do not use the database
1116 classes, odbc.dll will be loaded but not called (so ODBC does not need to be
1117 setup fully if no ODBC calls will be made).
1118
1119 A sample is distributed with wxWindows in {\tt samples/odbc}. You will need to install
1120 the sample dbf file as a data source using the ODBC setup utility, available from
1121 the control panel if ODBC has been fully installed.
1122
1123 \subsection{Procedures for writing an ODBC application using wxDatabase [DEPRECATED]}
1124
1125 You first need to create a wxDatabase object. If you want to get information
1126 from the ODBC manager instead of from a particular database (for example
1127 using \helpref{wxRecordSet::GetDataSources}{wxrecordsetgetdatasources}), then you
1128 do not need to call \helpref{wxDatabase::Open}{wxdatabaseopen}.
1129 If you do wish to connect to a datasource, then call wxDatabase::Open.
1130 You can reuse your wxDatabase object, calling wxDatabase::Close and wxDatabase::Open
1131 multiple times.
1132
1133 Then, create a wxRecordSet object for retrieving or sending information.
1134 For ODBC manager information retrieval, you can create it as a dynaset (retrieve the
1135 information as needed) or a snapshot (get all the data at once).
1136 If you are going to call \helpref{wxRecordSet::ExecuteSQL}{wxrecordsetexecutesql}, you need to create it as a snapshot.
1137 Dynaset mode is not yet implemented for user data.
1138
1139 Having called a function such as wxRecordSet::ExecuteSQL or
1140 wxRecordSet::GetDataSources, you may have a number of records
1141 associated with the recordset, if appropriate to the operation. You can
1142 now retrieve information such as the number of records retrieved and the
1143 actual data itself. Use \helpref{wxRecordSet::GetFieldData}{wxrecordsetgetfielddata} or
1144 \helpref{wxRecordSet::GetFieldDataPtr}{wxrecordsetgetfielddataptr} to get the data or a pointer to it, passing
1145 a column index or name. The data returned will be for the current
1146 record. To move around the records, use \helpref{wxRecordSet::MoveNext}{wxrecordsetmovenext},
1147 \rtfsp\helpref{wxRecordSet::MovePrev}{wxrecordsetmoveprev} and associated functions.
1148
1149 You can use the same recordset for multiple operations, or delete
1150 the recordset and create a new one.
1151
1152 Note that when you delete a wxDatabase, any associated recordsets
1153 also get deleted, so beware of holding onto invalid pointers.
1154
1155 \subsection{wxDatabase class overview [DEPRECATED]}\label{wxdatabaseoverview}
1156
1157 Class: \helpref{wxDatabase}{wxdatabase}
1158
1159 \wxheading{DEPRECATED}
1160
1161 Use \helpref{wxDb}{wxdb} and \helpref{wxDbTable}{wxdbtable} instead.
1162
1163 Every database object represents an ODBC connection. To do anything useful
1164 with a database object you need to bind a wxRecordSet object to it. All you
1165 can do with wxDatabase is opening/closing connections and getting some info
1166 about it (users, passwords, and so on).
1167
1168 \wxheading{See also}
1169
1170 \helpref{Database classes overview}{odbcoverview}
1171
1172 \subsection{wxQueryCol class overview [DEPRECATED]}\label{wxquerycoloverview}
1173
1174 Class: \helpref{wxQueryCol}{wxquerycol}
1175
1176 \wxheading{DEPRECATED}
1177
1178 Use \helpref{wxDb}{wxdb} and \helpref{wxDbTable}{wxdbtable} instead.
1179
1180 Every data column is represented by an instance of this class.
1181 It contains the name and type of a column and a list of wxQueryFields where
1182 the real data is stored. The links to user-defined variables are stored
1183 here, as well.
1184
1185 \wxheading{See also}
1186
1187 \helpref{Database classes overview}{odbcoverview}
1188
1189 \subsection{wxQueryField class overview [DEPRECATED]}\label{wxqueryfieldoverview}
1190
1191 Class: \helpref{wxQueryField}{wxqueryfield}
1192
1193 \wxheading{DEPRECATED}
1194
1195 Use \helpref{wxDb}{wxdb} and \helpref{wxDbTable}{wxdbtable} instead.
1196
1197 As every data column is represented by an instance of the class wxQueryCol,
1198 every data item of a specific column is represented by an instance of
1199 wxQueryField. Each column contains a list of wxQueryFields. If wxRecordSet is
1200 of the type wxOPEN\_TYPE\_DYNASET, there will be only one field for each column,
1201 which will be updated every time you call functions like wxRecordSet::Move
1202 or wxRecordSet::GoTo. If wxRecordSet is of the type wxOPEN\_TYPE\_SNAPSHOT,
1203 all data returned by an ODBC function will be loaded at once and the number
1204 of wxQueryField instances for each column will depend on the number of records.
1205
1206 \wxheading{See also}
1207
1208 \helpref{Database classes overview}{odbcoverview}
1209
1210 \subsection{wxRecordSet overview [DEPRECATED]}\label{wxrecordsetoverview}
1211
1212 Class: \helpref{wxRecordSet}{wxrecordset}
1213
1214 \wxheading{DEPRECATED}
1215
1216 Use \helpref{wxDb}{wxdb} and \helpref{wxDbTable}{wxdbtable} instead.
1217
1218
1219 Each wxRecordSet represents a database query. You can make multiple queries
1220 at a time by using multiple wxRecordSets with a wxDatabase or you can make
1221 your queries in sequential order using the same wxRecordSet.
1222
1223 \wxheading{See also}
1224
1225 \helpref{Database classes overview}{odbcoverview}
1226
1227 \subsection{ODBC SQL data types [DEPRECATED]}\label{sqltypes}
1228
1229 These are the data types supported in ODBC SQL. Note that there are other, extended level conformance
1230 types, not currently supported in wxWindows.
1231
1232 \begin{twocollist}\itemsep=0pt
1233 \twocolitem{CHAR(n)}{A character string of fixed length {\it n}.}
1234 \twocolitem{VARCHAR(n)}{A varying length character string of maximum length {\it n}.}
1235 \twocolitem{LONG VARCHAR(n)}{A varying length character string: equivalent to VARCHAR for the purposes
1236 of ODBC.}
1237 \twocolitem{DECIMAL(p, s)}{An exact numeric of precision {\it p} and scale {\it s}.}
1238 \twocolitem{NUMERIC(p, s)}{Same as DECIMAL.}
1239 \twocolitem{SMALLINT}{A 2 byte integer.}
1240 \twocolitem{INTEGER}{A 4 byte integer.}
1241 \twocolitem{REAL}{A 4 byte floating point number.}
1242 \twocolitem{FLOAT}{An 8 byte floating point number.}
1243 \twocolitem{DOUBLE PRECISION}{Same as FLOAT.}
1244 \end{twocollist}
1245
1246 These data types correspond to the following ODBC identifiers:
1247
1248 \begin{twocollist}\itemsep=0pt
1249 \twocolitem{SQL\_CHAR}{A character string of fixed length.}
1250 \twocolitem{SQL\_VARCHAR}{A varying length character string.}
1251 \twocolitem{SQL\_DECIMAL}{An exact numeric.}
1252 \twocolitem{SQL\_NUMERIC}{Same as SQL\_DECIMAL.}
1253 \twocolitem{SQL\_SMALLINT}{A 2 byte integer.}
1254 \twocolitem{SQL\_INTEGER}{A 4 byte integer.}
1255 \twocolitem{SQL\_REAL}{A 4 byte floating point number.}
1256 \twocolitem{SQL\_FLOAT}{An 8 byte floating point number.}
1257 \twocolitem{SQL\_DOUBLE}{Same as SQL\_FLOAT.}
1258 \end{twocollist}
1259
1260 \wxheading{See also}
1261
1262 \helpref{Database classes overview}{odbcoverview}
1263
1264 \subsection{A selection of SQL commands [DEPRECATED]}\label{sqlcommands}
1265
1266 The following is a very brief description of some common SQL commands, with
1267 examples.
1268
1269 \wxheading{See also}
1270
1271 \helpref{Database classes overview}{odbcoverview}
1272
1273 \subsubsection{Create}
1274
1275 Creates a table.
1276
1277 Example:
1278
1279 \begin{verbatim}
1280 CREATE TABLE Book
1281 (BookNumber INTEGER PRIMARY KEY
1282 , CategoryCode CHAR(2) DEFAULT 'RO' NOT NULL
1283 , Title VARCHAR(100) UNIQUE
1284 , NumberOfPages SMALLINT
1285 , RetailPriceAmount NUMERIC(5,2)
1286 )
1287 \end{verbatim}
1288
1289 \subsubsection{Insert}
1290
1291 Inserts records into a table.
1292
1293 Example:
1294
1295 \begin{verbatim}
1296 INSERT INTO Book
1297 (BookNumber, CategoryCode, Title)
1298 VALUES(5, 'HR', 'The Lark Ascending')
1299 \end{verbatim}
1300
1301 \subsubsection{Select}
1302
1303 The Select operation retrieves rows and columns from a table. The criteria
1304 for selection and the columns returned may be specified.
1305
1306 Examples:
1307
1308 \verb$SELECT * FROM Book$
1309
1310 Selects all rows and columns from table Book.
1311
1312 \verb$SELECT Title, RetailPriceAmount FROM Book WHERE RetailPriceAmount > 20.0$
1313
1314 Selects columns Title and RetailPriceAmount from table Book, returning only
1315 the rows that match the WHERE clause.
1316
1317 \verb$SELECT * FROM Book WHERE CatCode = 'LL' OR CatCode = 'RR'$
1318
1319 Selects all columns from table Book, returning only
1320 the rows that match the WHERE clause.
1321
1322 \verb$SELECT * FROM Book WHERE CatCode IS NULL$
1323
1324 Selects all columns from table Book, returning only rows where the CatCode column
1325 is NULL.
1326
1327 \verb$SELECT * FROM Book ORDER BY Title$
1328
1329 Selects all columns from table Book, ordering by Title, in ascending order. To specify
1330 descending order, add DESC after the ORDER BY Title clause.
1331
1332 \verb$SELECT Title FROM Book WHERE RetailPriceAmount >= 20.0 AND RetailPriceAmount <= 35.0$
1333
1334 Selects records where RetailPriceAmount conforms to the WHERE expression.
1335
1336 \subsubsection{Update}
1337
1338 Updates records in a table.
1339
1340 Example:
1341
1342 \verb$UPDATE Incident SET X = 123 WHERE ASSET = 'BD34'$
1343
1344 This example sets a field in column `X' to the number 123, for the record
1345 where the column ASSET has the value `BD34'.
1346
1347
1348