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1 \section{wxLog classes overview}\label{wxlogoverview}
2
3 Classes: \helpref{wxLog}{wxlog},\\
4 \helpref{wxLogStderr}{wxlogstderr},\\
5 \helpref{wxLogStream}{wxlogstream},\\
6 \helpref{wxLogTextCtrl}{wxlogtextctrl},\\
7 \helpref{wxLogWindow}{wxlogwindow},\\
8 \helpref{wxLogGui}{wxloggui},\\
9 \helpref{wxLogNull}{wxlognull},\\
10 \helpref{wxLogBuffer}{wxlogbuffer},\\
11 \helpref{wxLogChain}{wxlogchain},\\
12 \helpref{wxLogInterposer}{wxloginterposer},\\
13 \helpref{wxLogInterposerTemp}{wxloginterposertemp},\\
14 \helpref{wxStreamToTextRedirector}{wxstreamtotextredirector}
15
16 This is a general overview of logging classes provided by wxWidgets. The word
17 logging here has a broad sense, including all of the program output, not only
18 non-interactive messages. The logging facilities included in wxWidgets provide
19 the base {\it wxLog} class which defines the standard interface for a {\it log
20 target} as well as several standard implementations of it and a family of
21 functions to use with them.
22
23 First of all, no knowledge of {\it wxLog} classes is needed to use them. For
24 this, you should only know about {\it wxLogXXX()} functions. All of them have
25 the same syntax as {\it printf()} or {\it vprintf()} , i.e. they take the
26 format string as the first argument and respectively a variable number of
27 arguments or a variable argument list pointer. Here are all of them:
28
29 \begin{itemize}\itemsep=0pt
30 \item{\bf wxLogFatalError} which is like {\it wxLogError}, but also
31 terminates the program with the exit code $3$ (using {\it abort()} standard
32 function). Unlike for all the other logging functions, this function can't be
33 overridden by a log target.
34 \item{\bf wxLogError} is the function to use for error messages, i.e. the
35 messages that must be shown to the user. The default processing is to pop up a
36 message box to inform the user about it.
37 \item{\bf wxLogWarning} for warnings - they are also normally shown to the
38 user, but don't interrupt the program work.
39 \item{\bf wxLogMessage} is for all normal, informational messages. They also
40 appear in a message box by default (but it can be changed, see below).
41 \item{\bf wxLogVerbose} is for verbose output. Normally, it is suppressed, but
42 might be activated if the user wishes to know more details about the program
43 progress (another, but possibly confusing name for the same function is {\bf
44 wxLogInfo}).
45 \item{\bf wxLogStatus} is for status messages - they will go into the status
46 bar of the active or specified (as the first argument) \helpref{wxFrame}{wxframe} if it has one.
47 \item{\bf wxLogSysError} is mostly used by wxWidgets itself, but might be
48 handy for logging errors after system call (API function) failure. It logs the
49 specified message text as well as the last system error
50 code ({\it errno} or {\it ::GetLastError()} depending on the platform) and
51 the corresponding error message. The second form of this function takes the
52 error code explicitly as the first argument.
53 \item{\bf wxLogDebug} is {\bf the} right function for debug output. It only
54 does anything at all in the debug mode (when the preprocessor symbol
55 \_\_WXDEBUG\_\_ is defined) and expands to nothing in release mode (otherwise).
56 {\bf Tip:} under Windows, you must either run the program under debugger or
57 use a 3rd party program such as \urlref{DbgView}{http://www.sysinternals.com}
58 to actually see the debug output.
59 \item{\bf wxLogTrace} as {\bf wxLogDebug} only does something in debug
60 build. The reason for making it a separate function from it is that usually
61 there are a lot of trace messages, so it might make sense to separate them
62 from other debug messages which would be flooded in them. Moreover, the second
63 version of this function takes a trace mask as the first argument which allows
64 to further restrict the amount of messages generated.
65 \end{itemize}
66
67 The usage of these functions should be fairly straightforward, however it may
68 be asked why not use the other logging facilities, such as C standard stdio
69 functions or C++ streams. The short answer is that they're all very good
70 generic mechanisms, but are not really adapted for wxWidgets, while the log
71 classes are. Some of advantages in using wxWidgets log functions are:
72
73 \begin{itemize}\itemsep=0pt
74 \item{\bf Portability} It is a common practice to use {\it printf()}
75 statements or cout/cerr C++ streams for writing out some (debug or otherwise)
76 information.
77 Although it works just fine under Unix, these messages go strictly nowhere
78 under Windows where the stdout of GUI programs is not assigned to anything.
79 Thus, you might view {\it wxLogMessage()} as a simple substitute for {\it
80 printf()}.
81
82 You can also redirect the {\it wxLogXXX} calls to {\it cout} by just writing:
83 {\small
84 \begin{verbatim}
85 wxLog *logger=new wxLogStream(&cout);
86 wxLog::SetActiveTarget(logger);
87 \end{verbatim}
88 }
89
90 Finally, there is also a possibility to redirect the output sent to {\it cout}
91 to a \helpref{wxTextCtrl}{wxtextctrl} by using the
92 \helpref{wxStreamToTextRedirector}{wxstreamtotextredirector} class.
93 \item{\bf Flexibility} The output of wxLog functions can be redirected or
94 suppressed entirely based on their importance, which is either impossible or
95 difficult to do with traditional methods. For example, only error messages, or
96 only error messages and warnings might be logged, filtering out all
97 informational messages.
98 \item{\bf Completeness} Usually, an error message should be presented to the user
99 when some operation fails. Let's take a quite simple but common case of a file
100 error: suppose that you're writing your data file on disk and there is not
101 enough space. The actual error might have been detected inside wxWidgets code
102 (say, in {\it wxFile::Write}), so the calling function doesn't really know the
103 exact reason of the failure, it only knows that the data file couldn't be
104 written to the disk. However, as wxWidgets uses {\it wxLogError()} in this
105 situation, the exact error code (and the corresponding error message) will be
106 given to the user together with "high level" message about data file writing
107 error.
108 \end{itemize}
109
110 After having enumerated all the functions which are normally used to log the
111 messages, and why would you want to use them we now describe how all this
112 works.
113
114 wxWidgets has the notion of a {\it log target}: it is just a class deriving
115 from \helpref{wxLog}{wxlog}. As such, it implements the virtual functions of
116 the base class which are called when a message is logged. Only one log target
117 is {\it active} at any moment, this is the one used by {\it wxLogXXX()}
118 functions. The normal usage of a log object (i.e. object of a class derived
119 from wxLog) is to install it as the active target with a call to {\it
120 SetActiveTarget()} and it will be used automatically by all subsequent calls
121 to {\it wxLogXXX()} functions.
122
123 To create a new log target class you only need to derive it from wxLog and
124 implement one (or both) of {\it DoLog()} and {\it DoLogString()} in it. The
125 second one is enough if you're happy with the standard wxLog message
126 formatting (prepending "Error:" or "Warning:", timestamping \&c) but just want
127 to send the messages somewhere else. The first one may be overridden to do
128 whatever you want but you have to distinguish between the different message
129 types yourself.
130
131 There are some predefined classes deriving from wxLog and which might be
132 helpful to see how you can create a new log target class and, of course, may
133 also be used without any change. There are:
134
135 \begin{itemize}\itemsep=0pt
136 \item{\bf wxLogStderr} This class logs messages to a {\it FILE *}, using
137 stderr by default as its name suggests.
138 \item{\bf wxLogStream} This class has the same functionality as wxLogStderr,
139 but uses {\it ostream} and cerr instead of {\it FILE *} and stderr.
140 \item{\bf wxLogGui} This is the standard log target for wxWidgets
141 applications (it is used by default if you don't do anything) and provides the
142 most reasonable handling of all types of messages for given platform.
143 \item{\bf wxLogWindow} This log target provides a "log console" which
144 collects all messages generated by the application and also passes them to the
145 previous active log target. The log window frame has a menu allowing user to
146 clear the log, close it completely or save all messages to file.
147 \item{\bf wxLogBuffer} This target collects all the logged messages in an
148 internal buffer allowing to show them later to the user all at once.
149 \item{\bf wxLogNull} The last log class is quite particular: it doesn't do
150 anything. The objects of this class may be instantiated to (temporarily)
151 suppress output of {\it wxLogXXX()} functions. As an example, trying to open a
152 non-existing file will usually provoke an error message, but if for some
153 reasons it is unwanted, just use this construction:
154
155 {\small%
156 \begin{verbatim}
157 wxFile file;
158
159 // wxFile.Open() normally complains if file can't be opened, we don't want it
160 {
161 wxLogNull logNo;
162 if ( !file.Open("bar") )
163 ... process error ourselves ...
164 } // ~wxLogNull called, old log sink restored
165
166 wxLogMessage("..."); // ok
167 \end{verbatim}
168 }%
169 \end{itemize}
170
171 The log targets can also be combined: for example you may wish to redirect the
172 messages somewhere else (for example, to a log file) but also process them as
173 normally. For this the \helpref{wxLogChain}{wxlogchain}, \helpref{wxLogInterposer}{wxloginterposer} and\rtfsp
174 \helpref{wxLogInterposerTemp}{wxloginterposertemp} can be used.
175