\chapter{Functions}\label{functions} \setheader{{\it CHAPTER \thechapter}}{}{}{}{}{{\it CHAPTER \thechapter}}% \setfooter{\thepage}{}{}{}{}{\thepage} The functions defined in wxWindows are described here. \section{File functions}\label{filefunctions} See also \helpref{wxPathList}{wxpathlist}. \membersection{::wxDirExists} \func{bool}{wxDirExists}{\param{const wxString\& }{dirname}} Returns TRUE if the directory exists. \membersection{::wxDos2UnixFilename} \func{void}{Dos2UnixFilename}{\param{const wxString\& }{s}} Converts a DOS to a Unix filename by replacing backslashes with forward slashes. \membersection{::wxFileExists} \func{bool}{wxFileExists}{\param{const wxString\& }{filename}} Returns TRUE if the file exists. \membersection{::wxFileNameFromPath} \func{wxString}{wxFileNameFromPath}{\param{const wxString\& }{path}} Returns a temporary pointer to the filename for a full path. Copy this pointer for long-term use. \membersection{::wxFindFirstFile}\label{wxfindfirstfile} \func{wxString}{wxFindFirstFile}{\param{const wxString\& }{spec}, \param{int}{ flags = 0}} This function does directory searching; returns the first file that matches the path {\it spec}, or NULL. Use \helpref{wxFindNextFile}{wxfindnextfile} to get the next matching file. {\it spec} may contain wildcards. {\it flags} is reserved for future use. The returned filename is a pointer to static memory so should not be freed. For example: \begin{verbatim} wxString f = wxFindFirstFile("/home/project/*.*"); while (f) { ... f = wxFindNextFile(); } \end{verbatim} \membersection{::wxFindNextFile}\label{wxfindnextfile} \func{wxString}{wxFindFirstFile}{\void} Returns the next file that matches the path passed to \helpref{wxFindFirstFile}{wxfindfirstfile}. \membersection{::wxIsAbsolutePath} \func{bool}{wxIsAbsolutePath}{\param{const wxString\& }{filename}} Returns TRUE if the argument is an absolute filename, i.e. with a slash or drive name at the beginning. \membersection{::wxPathOnly} \func{wxString}{wxPathOnly}{\param{const wxString\& }{path}} Returns a temporary pointer to the directory part of the filename. Copy this pointer for long-term use. \membersection{::wxUnix2DosFilename} \func{void}{wxUnix2DosFilename}{\param{const wxString\& }{s}} Converts a Unix to a DOS filename by replacing forward slashes with backslashes. \membersection{::wxConcatFiles} \func{bool}{wxConcatFiles}{\param{const wxString\& }{file1}, \param{const wxString\& }{file2}, \param{const wxString\& }{file3}} Concatenates {\it file1} and {\it file2} to {\it file3}, returning TRUE if successful. \membersection{::wxCopyFile} \func{bool}{wxCopyFile}{\param{const wxString\& }{file1}, \param{const wxString\& }{file2}} Copies {\it file1} to {\it file2}, returning TRUE if successful. \membersection{::wxGetHostName}\label{wxgethostname} \func{bool}{wxGetHostName}{\param{const wxString\& }{buf}, \param{int }{sz}} Copies the current host machine's name into the supplied buffer. Under Windows or NT, this function first looks in the environment variable SYSTEM\_NAME; if this is not found, the entry {\bf HostName}\rtfsp in the {\bf wxWindows} section of the WIN.INI file is tried. Returns TRUE if successful, FALSE otherwise. \membersection{::wxGetEmailAddress}\label{wxgetemailaddress} \func{bool}{wxGetEmailAddress}{\param{const wxString\& }{buf}, \param{int }{sz}} Copies the user's email address into the supplied buffer, by concatenating the values returned by \helpref{wxGetHostName}{wxgethostname}\rtfsp and \helpref{wxGetUserId}{wxgetuserid}. Returns TRUE if successful, FALSE otherwise. \membersection{::wxGetUserId}\label{wxgetuserid} \func{bool}{wxGetUserId}{\param{const wxString\& }{buf}, \param{int }{sz}} Copies the current user id into the supplied buffer. Under Windows or NT, this function first looks in the environment variables USER and LOGNAME; if neither of these is found, the entry {\bf UserId}\rtfsp in the {\bf wxWindows} section of the WIN.INI file is tried. Returns TRUE if successful, FALSE otherwise. \membersection{::wxGetUserName}\label{wxgetusername} \func{bool}{wxGetUserName}{\param{const wxString\& }{buf}, \param{int }{sz}} Copies the current user name into the supplied buffer. Under Windows or NT, this function looks for the entry {\bf UserName}\rtfsp in the {\bf wxWindows} section of the WIN.INI file. If PenWindows is running, the entry {\bf Current} in the section {\bf User} of the PENWIN.INI file is used. Returns TRUE if successful, FALSE otherwise. \membersection{::wxGetWorkingDirectory} \func{wxString}{wxGetWorkingDirectory}{\param{const wxString\& }{buf=NULL}, \param{int }{sz=1000}} Copies the current working directory into the buffer if supplied, or copies the working directory into new storage (which you must delete yourself) if the buffer is NULL. {\it sz} is the size of the buffer if supplied. \membersection{::wxGetTempFileName} \func{wxString}{wxGetTempFileName}{\param{const wxString\& }{prefix}, \param{const wxString\& }{buf=NULL}} Makes a temporary filename based on {\it prefix}, opens and closes the file, and places the name in {\it buf}. If {\it buf} is NULL, new store is allocated for the temporary filename using {\it new}. Under Windows, the filename will include the drive and name of the directory allocated for temporary files (usually the contents of the TEMP variable). Under Unix, the {\tt /tmp} directory is used. It is the application's responsibility to create and delete the file. \membersection{::wxIsWild}\label{wxiswild} \func{bool}{wxIsWild}{\param{const wxString\& }{pattern}} Returns TRUE if the pattern contains wildcards. See \helpref{wxMatchWild}{wxmatchwild}. \membersection{::wxMatchWild}\label{wxmatchwild} \func{bool}{wxMatchWild}{\param{const wxString\& }{pattern}, \param{const wxString\& }{text}, \param{bool}{ dot\_special}} Returns TRUE if the {\it pattern}\/ matches the {\it text}\/; if {\it dot\_special}\/ is TRUE, filenames beginning with a dot are not matched with wildcard characters. See \helpref{wxIsWild}{wxiswild}. \membersection{::wxMkdir} \func{bool}{wxMkdir}{\param{const wxString\& }{dir}} Makes the directory {\it dir}, returning TRUE if successful. \membersection{::wxRemoveFile} \func{bool}{wxRemoveFile}{\param{const wxString\& }{file}} Removes {\it file}, returning TRUE if successful. \membersection{::wxRenameFile} \func{bool}{wxRenameFile}{\param{const wxString\& }{file1}, \param{const wxString\& }{file2}} Renames {\it file1} to {\it file2}, returning TRUE if successful. \membersection{::wxRmdir} \func{bool}{wxRmdir}{\param{const wxString\& }{dir}, \param{int}{ flags=0}} Removes the directory {\it dir}, returning TRUE if successful. Does not work under VMS. The {\it flags} parameter is reserved for future use. \membersection{::wxSetWorkingDirectory} \func{bool}{wxSetWorkingDirectory}{\param{const wxString\& }{dir}} Sets the current working directory, returning TRUE if the operation succeeded. Under MS Windows, the current drive is also changed if {\it dir} contains a drive specification. \section{String functions} \membersection{::copystring} \func{char*}{copystring}{\param{const char* }{s}} Makes a copy of the string {\it s} using the C++ new operator, so it can be deleted with the {\it delete} operator. \membersection{::wxStringMatch} \func{bool}{wxStringMatch}{\param{const wxString\& }{s1}, \param{const wxString\& }{s2},\\ \param{bool}{ subString = TRUE}, \param{bool}{ exact = FALSE}} Returns TRUE if the substring {\it s1} is found within {\it s2}, ignoring case if {\it exact} is FALSE. If {\it subString} is FALSE, no substring matching is done. \membersection{::wxStringEq}\label{wxstringeq} \func{bool}{wxStringEq}{\param{const wxString\& }{s1}, \param{const wxString\& }{s2}} A macro defined as: \begin{verbatim} #define wxStringEq(s1, s2) (s1 && s2 && (strcmp(s1, s2) == 0)) \end{verbatim} \membersection{::wxTransferFileToStream}\label{wxtransferfiletostream} \func{bool}{wxTransferFileToStream}{\param{const wxString\& }{filename}, \param{ostream\& }{stream}} Copies the given file to {\it stream}. Useful when converting an old application to use streams (within the document/view framework, for example). Use of this function requires the file wx\_doc.h to be included. \membersection{::wxTransferStreamToFile}\label{wxtransferstreamtofile} \func{bool}{wxTransferStreamToFile}{\param{istream\& }{stream} \param{const wxString\& }{filename}} Copies the given stream to the file {\it filename}. Useful when converting an old application to use streams (within the document/view framework, for example). Use of this function requires the file wx\_doc.h to be included. \section{Dialog functions}\label{dialogfunctions} Below are a number of convenience functions for getting input from the user or displaying messages. Note that in these functions the last three parameters are optional. However, it is recommended to pass a parent frame parameter, or (in MS Windows or Motif) the wrong window frame may be brought to the front when the dialog box is popped up. \membersection{::wxFileSelector}\label{wxfileselector} \func{wxString}{wxFileSelector}{\param{const wxString\& }{message}, \param{const wxString\& }{default\_path = NULL},\\ \param{const wxString\& }{default\_filename = NULL}, \param{const wxString\& }{default\_extension = NULL},\\ \param{const wxString\& }{wildcard = ``*.*''}, \param{int }{flags = 0}, \param{wxWindow *}{parent = NULL},\\ \param{int}{ x = -1}, \param{int}{ y = -1}} Pops up a file selector box. In Windows, this is the common file selector dialog. In X, this is a file selector box with somewhat less functionality. The path and filename are distinct elements of a full file pathname. If path is NULL, the current directory will be used. If filename is NULL, no default filename will be supplied. The wildcard determines what files are displayed in the file selector, and file extension supplies a type extension for the required filename. Flags may be a combination of wxOPEN, wxSAVE, wxOVERWRITE\_PROMPT, wxHIDE\_READONLY, or 0. They are only significant at present in Windows. Both the X and Windows versions implement a wildcard filter. Typing a filename containing wildcards (*, ?) in the filename text item, and clicking on Ok, will result in only those files matching the pattern being displayed. In the X version, supplying no default name will result in the wildcard filter being inserted in the filename text item; the filter is ignored if a default name is supplied. Under Windows (only), the wildcard may be a specification for multiple types of file with a description for each, such as: \begin{verbatim} "BMP files (*.bmp) | *.bmp | GIF files (*.gif) | *.gif" \end{verbatim} The application must check for a NULL return value (the user pressed Cancel). For example: \begin{verbatim} const wxString\& s = wxFileSelector("Choose a file to open"); if (s) { ... } \end{verbatim} Remember that the returned pointer is temporary and should be copied if other wxWindows calls will be made before the value is to be used. \membersection{::wxGetTextFromUser}\label{wxgettextfromuser} \func{wxString}{wxGetTextFromUser}{\param{const wxString\& }{message}, \param{const wxString\& }{caption = ``Input text"},\\ \param{const wxString\& }{default\_value = ``"}, \param{wxWindow *}{parent = NULL},\\ \param{int}{ x = -1}, \param{int}{ y = -1}, \param{bool}{ centre = TRUE}} Pop up a dialog box with title set to {\it caption}, message {\it message}, and a \rtfsp{\it default\_value}. The user may type in text and press OK to return this text, or press Cancel to return NULL. If {\it centre} is TRUE, the message text (which may include new line characters) is centred; if FALSE, the message is left-justified. \membersection{::wxGetMultipleChoice}\label{wxgetmultiplechoice} \func{int}{wxGetMultipleChoice}{\param{const wxString\& }{message}, \param{const wxString\& }{caption}, \param{int}{ n}, \param{const wxString\& }{choices[]},\\ \param{int }{nsel}, \param{int *}{selection}, \param{wxWindow *}{parent = NULL}, \param{int}{ x = -1}, \param{int}{ y = -1},\\ \param{bool}{ centre = TRUE}, \param{int }{width=150}, \param{int }{height=200}} Pops up a dialog box containing a message, OK/Cancel buttons and a multiple-selection listbox. The user may choose one or more item(s) and press OK or Cancel. The number of initially selected choices, and array of the selected indices, are passed in; this array will contain the user selections on exit, with the function returning the number of selections. {\it selection} must be as big as the number of choices, in case all are selected. If Cancel is pressed, -1 is returned. {\it choices} is an array of {\it n} strings for the listbox. If {\it centre} is TRUE, the message text (which may include new line characters) is centred; if FALSE, the message is left-justified. \membersection{::wxGetSingleChoice}\label{wxgetsinglechoice} \func{wxString}{wxGetSingleChoice}{\param{const wxString\& }{message}, \param{const wxString\& }{caption}, \param{int}{ n}, \param{const wxString\& }{choices[]},\\ \param{wxWindow *}{parent = NULL}, \param{int}{ x = -1}, \param{int}{ y = -1},\\ \param{bool}{ centre = TRUE}, \param{int }{width=150}, \param{int }{height=200}} Pops up a dialog box containing a message, OK/Cancel buttons and a single-selection listbox. The user may choose an item and press OK to return a string or Cancel to return NULL. {\it choices} is an array of {\it n} strings for the listbox. If {\it centre} is TRUE, the message text (which may include new line characters) is centred; if FALSE, the message is left-justified. \membersection{::wxGetSingleChoiceIndex}\label{wxgetsinglechoiceindex} \func{int}{wxGetSingleChoiceIndex}{\param{const wxString\& }{message}, \param{const wxString\& }{caption}, \param{int}{ n}, \param{const wxString\& }{choices[]},\\ \param{wxWindow *}{parent = NULL}, \param{int}{ x = -1}, \param{int}{ y = -1},\\ \param{bool}{ centre = TRUE}, \param{int }{width=150}, \param{int }{height=200}} As {\bf wxGetSingleChoice} but returns the index representing the selected string. If the user pressed cancel, -1 is returned. \membersection{::wxGetSingleChoiceData}\label{wxgetsinglechoicedata} \func{wxString}{wxGetSingleChoiceData}{\param{const wxString\& }{message}, \param{const wxString\& }{caption}, \param{int}{ n}, \param{const wxString\& }{choices[]},\\ \param{const wxString\& }{client\_data[]}, \param{wxWindow *}{parent = NULL}, \param{int}{ x = -1},\\ \param{int}{ y = -1}, \param{bool}{ centre = TRUE}, \param{int }{width=150}, \param{int }{height=200}} As {\bf wxGetSingleChoice} but takes an array of client data pointers corresponding to the strings, and returns one of these pointers. \membersection{::wxMessageBox}\label{wxmessagebox} \func{int}{wxMessageBox}{\param{const wxString\& }{message}, \param{const wxString\& }{caption = ``Message"}, \param{int}{ style = wxOK \pipe wxCENTRE},\\ \param{wxWindow *}{parent = NULL}, \param{int}{ x = -1}, \param{int}{ y = -1}} General purpose message dialog. {\it style} may be a bit list of the following identifiers: \begin{twocollist}\itemsep=0pt \twocolitem{wxYES\_NO}{Puts Yes and No buttons on the message box. May be combined with wxCANCEL.} \twocolitem{wxCANCEL}{Puts a Cancel button on the message box. May be combined with wxYES\_NO or wxOK.} \twocolitem{wxOK}{Puts an Ok button on the message box. May be combined with wxCANCEL.} \twocolitem{wxCENTRE}{Centres the text.} \twocolitem{wxICON\_EXCLAMATION}{Under Windows, displays an exclamation mark symbol.} \twocolitem{wxICON\_HAND}{Under Windows, displays a hand symbol.} \twocolitem{wxICON\_QUESTION}{Under Windows, displays a question mark symbol.} \twocolitem{wxICON\_INFORMATION}{Under Windows, displays an information symbol.} \end{twocollist} The return value is one of: wxYES, wxNO, wxCANCEL, wxOK. For example: \begin{verbatim} ... int answer = wxMessageBox("Quit program?", "Confirm", wxYES_NO | wxCANCEL, main_frame); if (answer == wxYES) delete main_frame; ... \end{verbatim} {\it message} may contain newline characters, in which case the message will be split into separate lines, to cater for large messages. Under Windows, the native MessageBox function is used unless wxCENTRE is specified in the style, in which case a generic function is used. This is because the native MessageBox function cannot centre text. The symbols are not shown when the generic function is used. \section{GDI functions}\label{gdifunctions} The following are relevant to the GDI (Graphics Device Interface). \membersection{::wxColourDisplay} \func{bool}{wxColourDisplay}{\void} Returns TRUE if the display is colour, FALSE otherwise. \membersection{::wxDisplayDepth} \func{int}{wxDisplayDepth}{\void} Returns the depth of the display (a value of 1 denotes a monochrome display). \membersection{::wxMakeMetafilePlaceable}\label{wxmakemetafileplaceable} \func{bool}{wxMakeMetafilePlaceable}{\param{const wxString\& }{filename}, \param{int }{minX}, \param{int }{minY}, \param{int }{maxX}, \param{int }{maxY}, \param{float }{scale=1.0}} Given a filename for an existing, valid metafile (as constructed using \helpref{wxMetafileDC}{wxmetafiledc}) makes it into a placeable metafile by prepending a header containing the given bounding box. The bounding box may be obtained from a device context after drawing into it, using the functions wxDC::MinX, wxDC::MinY, wxDC::MaxX and wxDC::MaxY. In addition to adding the placeable metafile header, this function adds the equivalent of the following code to the start of the metafile data: \begin{verbatim} SetMapMode(dc, MM_ANISOTROPIC); SetWindowOrg(dc, minX, minY); SetWindowExt(dc, maxX - minX, maxY - minY); \end{verbatim} This simulates the MM\_TEXT mapping mode, which wxWindows assumes. Placeable metafiles may be imported by many Windows applications, and can be used in RTF (Rich Text Format) files. {\it scale} allows the specification of scale for the metafile. This function is only available under Windows. \membersection{::wxSetCursor}\label{wxsetcursor} \func{void}{wxSetCursor}{\param{wxCursor *}{cursor}} Globally sets the cursor; only has an effect in MS Windows. See also \helpref{wxCursor}{wxcursor}, \helpref{wxWindow::SetCursor}{wxwindowsetcursor}. \section{Printer settings}\label{printersettings} The following functions are used to control PostScript printing. Under Windows, PostScript output can only be sent to a file. \membersection{::wxGetPrinterCommand} \func{wxString}{wxGetPrinterCommand}{\void} Gets the printer command used to print a file. The default is {\tt lpr}. \membersection{::wxGetPrinterFile} \func{wxString}{wxGetPrinterFile}{\void} Gets the PostScript output filename. \membersection{::wxGetPrinterMode} \func{int}{wxGetPrinterMode}{\void} Gets the printing mode controlling where output is sent (PS\_PREVIEW, PS\_FILE or PS\_PRINTER). The default is PS\_PREVIEW. \membersection{::wxGetPrinterOptions} \func{wxString}{wxGetPrinterOptions}{\void} Gets the additional options for the print command (e.g. specific printer). The default is nothing. \membersection{::wxGetPrinterOrientation} \func{int}{wxGetPrinterOrientation}{\void} Gets the orientation (PS\_PORTRAIT or PS\_LANDSCAPE). The default is PS\_PORTRAIT. \membersection{::wxGetPrinterPreviewCommand} \func{wxString}{wxGetPrinterPreviewCommand}{\void} Gets the command used to view a PostScript file. The default depends on the platform. \membersection{::wxGetPrinterScaling} \func{void}{wxGetPrinterScaling}{\param{float *}{x}, \param{float *}{y}} Gets the scaling factor for PostScript output. The default is 1.0, 1.0. \membersection{::wxGetPrinterTranslation} \func{void}{wxGetPrinterTranslation}{\param{float *}{x}, \param{float *}{y}} Gets the translation (from the top left corner) for PostScript output. The default is 0.0, 0.0. \membersection{::wxSetPrinterCommand} \func{void}{wxSetPrinterCommand}{\param{const wxString\& }{command}} Sets the printer command used to print a file. The default is {\tt lpr}. \membersection{::wxSetPrinterFile} \func{void}{wxSetPrinterFile}{\param{const wxString\& }{filename}} Sets the PostScript output filename. \membersection{::wxSetPrinterMode} \func{void}{wxSetPrinterMode}{\param{int }{mode}} Sets the printing mode controlling where output is sent (PS\_PREVIEW, PS\_FILE or PS\_PRINTER). The default is PS\_PREVIEW. \membersection{::wxSetPrinterOptions} \func{void}{wxSetPrinterOptions}{\param{const wxString\& }{options}} Sets the additional options for the print command (e.g. specific printer). The default is nothing. \membersection{::wxSetPrinterOrientation} \func{void}{wxSetPrinterOrientation}{\param{int}{ orientation}} Sets the orientation (PS\_PORTRAIT or PS\_LANDSCAPE). The default is PS\_PORTRAIT. \membersection{::wxSetPrinterPreviewCommand} \func{void}{wxSetPrinterPreviewCommand}{\param{const wxString\& }{command}} Sets the command used to view a PostScript file. The default depends on the platform. \membersection{::wxSetPrinterScaling} \func{void}{wxSetPrinterScaling}{\param{float }{x}, \param{float }{y}} Sets the scaling factor for PostScript output. The default is 1.0, 1.0. \membersection{::wxSetPrinterTranslation} \func{void}{wxSetPrinterTranslation}{\param{float }{x}, \param{float }{y}} Sets the translation (from the top left corner) for PostScript output. The default is 0.0, 0.0. \section{Clipboard functions}\label{clipsboard} These clipboard functions are implemented for Windows only. \membersection{::wxClipboardOpen} \func{bool}{wxClipboardOpen}{\void} Returns TRUE if this application has already opened the clipboard. \membersection{::wxCloseClipboard} \func{bool}{wxCloseClipboard}{\void} Closes the clipboard to allow other applications to use it. \membersection{::wxEmptyClipboard} \func{bool}{wxEmptyClipboard}{\void} Empties the clipboard. \membersection{::wxEnumClipboardFormats} \func{int}{wxEnumClipboardFormats}{\param{int}{dataFormat}} Enumerates the formats found in a list of available formats that belong to the clipboard. Each call to this function specifies a known available format; the function returns the format that appears next in the list. {\it dataFormat} specifies a known format. If this parameter is zero, the function returns the first format in the list. The return value specifies the next known clipboard data format if the function is successful. It is zero if the {\it dataFormat} parameter specifies the last format in the list of available formats, or if the clipboard is not open. Before it enumerates the formats function, an application must open the clipboard by using the wxOpenClipboard function. \membersection{::wxGetClipboardData} \func{wxObject *}{wxGetClipboardData}{\param{int}{dataFormat}} Gets data from the clipboard. {\it dataFormat} may be one of: \begin{itemize}\itemsep=0pt \item wxCF\_TEXT or wxCF\_OEMTEXT: returns a pointer to new memory containing a null-terminated text string. \item wxCF\_BITMAP: returns a new wxBitmap. \end{itemize} The clipboard must have previously been opened for this call to succeed. \membersection{::wxGetClipboardFormatName} \func{bool}{wxGetClipboardFormatName}{\param{int}{dataFormat}, \param{const wxString\& }{formatName}, \param{int}{maxCount}} Gets the name of a registered clipboard format, and puts it into the buffer {\it formatName} which is of maximum length {\it maxCount}. {\it dataFormat} must not specify a predefined clipboard format. \membersection{::wxIsClipboardFormatAvailable} \func{bool}{wxIsClipboardFormatAvailable}{\param{int}{dataFormat}} Returns TRUE if the given data format is available on the clipboard. \membersection{::wxOpenClipboard} \func{bool}{wxOpenClipboard}{\void} Opens the clipboard for passing data to it or getting data from it. \membersection{::wxRegisterClipboardFormat} \func{int}{wxRegisterClipboardFormat}{\param{const wxString\& }{formatName}} Registers the clipboard data format name and returns an identifier. \membersection{::wxSetClipboardData} \func{bool}{wxSetClipboardData}{\param{int}{dataFormat}, \param{wxObject *}{data}, \param{int}{width}, \param{int}{height}} Passes data to the clipboard. {\it dataFormat} may be one of: \begin{itemize}\itemsep=0pt \item wxCF\_TEXT or wxCF\_OEMTEXT: {\it data} is a null-terminated text string. \item wxCF\_BITMAP: {\it data} is a wxBitmap. \item wxCF\_DIB: {\it data} is a wxBitmap. The bitmap is converted to a DIB (device independent bitmap). \item wxCF\_METAFILE: {\it data} is a wxMetafile. {\it width} and {\it height} are used to give recommended dimensions. \end{itemize} The clipboard must have previously been opened for this call to succeed. \section{Miscellaneous functions}\label{miscellany} \membersection{::NewId} \func{long}{NewId}{\void} Generates an integer identifier unique to this run of the program. \membersection{::RegisterId} \func{void}{RegisterId}{\param{long}{ id}} Ensures that ids subsequently generated by {\bf NewId} do not clash with the given {\bf id}. \membersection{::wxBeginBusyCursor}\label{wxbeginbusycursor} \func{void}{wxBeginBusyCursor}{\param{wxCursor *}{cursor = wxHOURGLASS\_CURSOR}} Changes the cursor to the given cursor for all windows in the application. Use \helpref{wxEndBusyCursor}{wxendbusycursor} to revert the cursor back to its previous state. These two calls can be nested, and a counter ensures that only the outer calls take effect. See also \helpref{wxIsBusy}{wxisbusy}, \helpref{wxBusyCursor}{wxbusycursor}. \membersection{::wxBell} \func{void}{wxBell}{\void} Ring the system bell. \membersection{::wxCleanUp}\label{wxcleanup} \func{void}{wxCleanUp}{\void} Normally, wxWindows will call this cleanup function for you. However, if you call \helpref{wxEntry}{wxentry} in order to initialize wxWindows manually, then you should also call wxCleanUp before terminating wxWindows, if wxWindows does not get a chance to do it. \membersection{::wxCreateDynamicObject}\label{wxcreatedynamicobject} \func{wxObject *}{wxCreateDynamicObject}{\param{const wxString\& }{className}} Creates and returns an object of the given class, if the class has been registered with the dynamic class system using DECLARE... and IMPLEMENT... macros. \membersection{::wxDDECleanUp}\label{wxddecleanup} \func{void}{wxDDECleanUp}{\void} Called when wxWindows exits, to clean up the DDE system. This no longer needs to be called by the application. See also helpref{wxDDEInitialize}{wxddeinitialize}. \membersection{::wxDDEInitialize}\label{wxddeinitialize} \func{void}{wxDDEInitialize}{\void} Initializes the DDE system. May be called multiple times without harm. This no longer needs to be called by the application: it will be called by wxWindows if necessary. See also \helpref{wxDDEServer}{wxddeserver}, \helpref{wxDDEClient}{wxddeclient}, \helpref{wxDDEConnection}{wxddeconnection}, \helpref{wxDDECleanUp}{wxddecleanup}. \membersection{::wxDebugMsg}\label{wxdebugmsg} \func{void}{wxDebugMsg}{\param{const wxString\& }{fmt}, \param{...}{}} Display a debugging message; under Windows, this will appear on the debugger command window, and under Unix, it will be written to standard error. The syntax is identical to {\bf printf}: pass a format string and a variable list of arguments. Note that under Windows, you can see the debugging messages without a debugger if you have the DBWIN debug log application that comes with Microsoft C++. {\bf Tip:} under Windows, if your application crashes before the message appears in the debugging window, put a wxYield call after each wxDebugMsg call. wxDebugMsg seems to be broken under WIN32s (at least for Watcom C++): preformat your messages and use OutputDebugString instead. This function is now obsolete, replaced by \helpref{Log functions}{logfunctions}. \membersection{::wxDisplaySize} \func{void}{wxDisplaySize}{\param{int *}{width}, \param{int *}{height}} Gets the physical size of the display in pixels. \membersection{::wxEntry}\label{wxentry} This initializes wxWindows in a platform-dependent way. Use this if you are not using the default wxWindows entry code (e.g. main or WinMain). For example, you can initialize wxWindows from an Microsoft Foundation Classes application using this function. See also \helpref{wxCleanUp}{wxcleanup}. \func{void}{wxEntry}{\param{HANDLE}{ hInstance}, \param{HANDLE}{ hPrevInstance}, \param{const wxString\& }{commandLine}, \param{int}{ cmdShow}, \param{bool}{ enterLoop = TRUE}} wxWindows initialization under Windows (non-DLL). If {\it enterLoop} is FALSE, the function will return immediately after calling wxApp::OnInit. Otherwise, the wxWindows message loop will be entered. \func{void}{wxEntry}{\param{HANDLE}{ hInstance}, \param{HANDLE}{ hPrevInstance}, \param{WORD}{ wDataSegment}, \param{WORD}{ wHeapSize}, \param{const wxString\& }{ commandLine}} wxWindows initialization under Windows (for applications constructed as a DLL). \func{int}{wxEntry}{\param{int}{ argc}, \param{const wxString\& *}{argv}} wxWindows initialization under Unix. \membersection{::wxError}\label{wxerror} \func{void}{wxError}{\param{const wxString\& }{msg}, \param{const wxString\& }{title = "wxWindows Internal Error"}} Displays {\it msg} and continues. This writes to standard error under Unix, and pops up a message box under Windows. Used for internal wxWindows errors. See also \helpref{wxFatalError}{wxfatalerror}. \membersection{::wxEndBusyCursor}\label{wxendbusycursor} \func{void}{wxEndBusyCursor}{\void} Changes the cursor back to the original cursor, for all windows in the application. Use with \helpref{wxBeginBusyCursor}{wxbeginbusycursor}. See also \helpref{wxIsBusy}{wxisbusy}, \helpref{wxBusyCursor}{wxbusycursor}. \membersection{::wxExecute}\label{wxexecute} \func{long}{wxExecute}{\param{const wxString\& }{command}, \param{bool }{sync = FALSE}, \param{wxProcess *}{callback = NULL}} \func{long}{wxExecute}{\param{char **}{argv}, \param{bool }{sync = FALSE}, \param{wxProcess *}{callback = NULL}} Executes another program in Unix or Windows. The first form takes a command string, such as {\tt "emacs file.txt"}. The second form takes an array of values: a command, any number of arguments, terminated by NULL. If {\it sync} is FALSE (the default), flow of control immediately returns. If TRUE, the current application waits until the other program has terminated. If execution is asynchronous, the return value is the process id, otherwise it is a status value. A zero value indicates that the command could not be executed. If callback isn't NULL and if execution is asynchronous, \helpref{wxProcess::OnTerminate}{wxprocessonterminate} will be called when the process finishes. See also \helpref{wxShell}{wxshell}, \helpref{wxProcess}{wxprocess}. \membersection{::wxExit}\label{wxexit} \func{void}{wxExit}{\void} Exits application after calling \helpref{wxApp::OnExit}{wxapponexit}. Should only be used in an emergency: normally the top-level frame should be deleted (after deleting all other frames) to terminate the application. See \helpref{wxWindow::OnCloseWindow}{wxwindowonclosewindow} and \helpref{wxApp}{wxapp}. \membersection{::wxFatalError}\label{wxfatalerror} \func{void}{wxFatalError}{\param{const wxString\& }{msg}, \param{const wxString\& }{title = "wxWindows Fatal Error"}} Displays {\it msg} and exits. This writes to standard error under Unix, and pops up a message box under Windows. Used for fatal internal wxWindows errors. See also \helpref{wxError}{wxerror}. \membersection{::wxFindMenuItemId} \func{int}{wxFindMenuItemId}{\param{wxFrame *}{frame}, \param{const wxString\& }{menuString}, \param{const wxString\& }{itemString}} Find a menu item identifier associated with the given frame's menu bar. \membersection{::wxFindWindowByLabel} \func{wxWindow *}{wxFindWindowByLabel}{\param{const wxString\& }{label}, \param{wxWindow *}{parent=NULL}} Find a window by its label. Depending on the type of window, the label may be a window title or panel item label. If {\it parent} is NULL, the search will start from all top-level frames and dialog boxes; if non-NULL, the search will be limited to the given window hierarchy. The search is recursive in both cases. \membersection{::wxFindWindowByName}\label{wxfindwindowbyname} \func{wxWindow *}{wxFindWindowByName}{\param{const wxString\& }{name}, \param{wxWindow *}{parent=NULL}} Find a window by its name (as given in a window constructor or {\bf Create} function call). If {\it parent} is NULL, the search will start from all top-level frames and dialog boxes; if non-NULL, the search will be limited to the given window hierarchy. The search is recursive in both cases. If no such named window is found, {\bf wxFindWindowByLabel} is called. \membersection{::wxGetActiveWindow}\label{wxgetactivewindow} \func{wxWindow *}{wxGetActiveWindow}{\void} Gets the currently active window (Windows only). \membersection{::wxGetDisplayName}\label{wxgetdisplayname} \func{wxString}{wxGetDisplayName}{\void} Under X only, returns the current display name. See also \helpref{wxSetDisplayName}{wxsetdisplayname}. \membersection{::wxGetHomeDir} \func{wxString}{wxGetHomeDir}{\param{const wxString\& }{buf}} Fills the buffer with a string representing the user's home directory (Unix only). \membersection{::wxGetHostName} \func{bool}{wxGetHostName}{\param{const wxString\& }{buf}, \param{int}{ bufSize}} Copies the host name of the machine the program is running on into the buffer {\it buf}, of maximum size {\it bufSize}, returning TRUE if successful. Under Unix, this will return a machine name. Under Windows, this returns ``windows''. \membersection{::wxGetElapsedTime}\label{wxgetelapsedtime} \func{long}{wxGetElapsedTime}{\param{bool}{ resetTimer = TRUE}} Gets the time in milliseconds since the last \helpref{::wxStartTimer}{wxstarttimer}. If {\it resetTimer} is TRUE (the default), the timer is reset to zero by this call. See also \helpref{wxTimer}{wxtimer}. \membersection{::wxGetFreeMemory}\label{wxgetfreememory} \func{long}{wxGetFreeMemory}{\void} Returns the amount of free memory in Kbytes under environments which support it, and -1 if not supported. Currently, returns a positive value under Windows, and -1 under Unix. \membersection{::wxGetMousePosition} \func{void}{wxGetMousePosition}{\param{int* }{x}, \param{int* }{y}} Returns the mouse position in screen coordinates. \membersection{::wxGetOsVersion} \func{int}{wxGetOsVersion}{\param{int *}{major = NULL}, \param{int *}{minor = NULL}} Gets operating system version information. \begin{twocollist}\itemsep=0pt \twocolitemruled{Platform}{Return tyes} \twocolitem{Macintosh}{Return value is wxMACINTOSH.} \twocolitem{GTK}{Return value is wxGTK, {\it major} is 1, {\it minor} is 0. (for GTK 1.0.X) } \twocolitem{Motif}{Return value is wxMOTIF\_X, {\it major} is X version, {\it minor} is X revision.} \twocolitem{OS/2}{Return value is wxOS2\_PM.} \twocolitem{Windows 3.1}{Return value is wxWINDOWS, {\it major} is 3, {\it minor} is 1.} \twocolitem{Windows NT}{Return value is wxWINDOWS\_NT, {\it major} is 3, {\it minor} is 1.} \twocolitem{Windows 95}{Return value is wxWIN95, {\it major} is 3, {\it minor} is 1.} \twocolitem{Win32s (Windows 3.1)}{Return value is wxWIN32S, {\it major} is 3, {\it minor} is 1.} \twocolitem{Watcom C++ 386 supervisor mode (Windows 3.1)}{Return value is wxWIN386, {\it major} is 3, {\it minor} is 1.} \end{twocollist} \membersection{::wxGetResource}\label{wxgetresource} \func{bool}{wxGetResource}{\param{const wxString\& }{section}, \param{const wxString\& }{entry}, \param{const wxString\& *}{value}, \param{const wxString\& }{file = NULL}} \func{bool}{wxGetResource}{\param{const wxString\& }{section}, \param{const wxString\& }{entry}, \param{float *}{value}, \param{const wxString\& }{file = NULL}} \func{bool}{wxGetResource}{\param{const wxString\& }{section}, \param{const wxString\& }{entry}, \param{long *}{value}, \param{const wxString\& }{file = NULL}} \func{bool}{wxGetResource}{\param{const wxString\& }{section}, \param{const wxString\& }{entry}, \param{int *}{value}, \param{const wxString\& }{file = NULL}} Gets a resource value from the resource database (for example, WIN.INI, or .Xdefaults). If {\it file} is NULL, WIN.INI or .Xdefaults is used, otherwise the specified file is used. Under X, if an application class (wxApp::GetClassName) has been defined, it is appended to the string /usr/lib/X11/app-defaults/ to try to find an applications default file when merging all resource databases. The reason for passing the result in an argument is that it can be convenient to define a default value, which gets overridden if the value exists in the resource file. It saves a separate test for that resource's existence, and it also allows the overloading of the function for different types. See also \helpref{wxWriteResource}{wxwriteresource}, \helpref{wxConfigBase}{wxconfigbase}. \membersection{::wxGetUserId} \func{bool}{wxGetUserId}{\param{const wxString\& }{buf}, \param{int}{ bufSize}} Copies the user's login identity (such as ``jacs'') into the buffer {\it buf}, of maximum size {\it bufSize}, returning TRUE if successful. Under Windows, this returns ``user''. \membersection{::wxGetUserName} \func{bool}{wxGetUserName}{\param{const wxString\& }{buf}, \param{int}{ bufSize}} Copies the user's name (such as ``Julian Smart'') into the buffer {\it buf}, of maximum size {\it bufSize}, returning TRUE if successful. Under Windows, this returns ``unknown''. \membersection{::wxKill}\label{wxkill} \func{int}{wxKill}{\param{long}{ pid}, \param{int}{ sig}} Under Unix (the only supported platform), equivalent to the Unix kill function. Returns 0 on success, -1 on failure. Tip: sending a signal of 0 to a process returns -1 if the process does not exist. It does not raise a signal in the receiving process. \membersection{::wxInitClipboard}\label{wxinitclipboard} \func{void}{wxInitClipboard}{\void} Initializes the generic clipboard system by creating an instance of the class \helpref{wxClipboard}{wxclipboard}. \membersection{::wxIsBusy}\label{wxisbusy} \func{bool}{wxIsBusy}{\void} Returns TRUE if between two \helpref{wxBeginBusyCursor}{wxbeginbusycursor} and\rtfsp \helpref{wxEndBusyCursor}{wxendbusycursor} calls. See also \helpref{wxBusyCursor}{wxbusycursor}. \membersection{::wxLoadUserResource}\label{wxloaduserresource} \func{wxString}{wxLoadUserResource}{\param{const wxString\& }{resourceName}, \param{const wxString\& }{resourceType=``TEXT"}} Loads a user-defined Windows resource as a string. If the resource is found, the function creates a new character array and copies the data into it. A pointer to this data is returned. If unsuccessful, NULL is returned. The resource must be defined in the {\tt .rc} file using the following syntax: \begin{verbatim} myResource TEXT file.ext \end{verbatim} where {\tt file.ext} is a file that the resource compiler can find. One use of this is to store {\tt .wxr} files instead of including the data in the C++ file; some compilers cannot cope with the long strings in a {\tt .wxr} file. The resource data can then be parsed using \helpref{wxResourceParseString}{wxresourceparsestring}. This function is available under Windows only. \membersection{::wxNow}\label{wxnow} \func{wxString}{wxNow}{\void} Returns a string representing the current date and time. \membersection{::wxPostDelete}\label{wxpostdelete} \func{void}{wxPostDelete}{\param{wxObject *}{object}} Under X, tells the system to delete the specified object when all other events have been processed. In some environments, it is necessary to use this instead of deleting a frame directly with the delete operator, because X will still send events to the window. Now obsolete: use \helpref{wxWindow::Close}{wxwindowclose} instead. \membersection{::wxSetDisplayName}\label{wxsetdisplayname} \func{void}{wxSetDisplayName}{\param{const wxString\& }{displayName}} Under X only, sets the current display name. This is the X host and display name such as ``colonsay:0.0", and the function indicates which display should be used for creating windows from this point on. Setting the display within an application allows multiple displays to be used. See also \helpref{wxGetDisplayName}{wxgetdisplayname}. \membersection{::wxShell}\label{wxshell} \func{bool}{wxShell}{\param{const wxString\& }{command = NULL}} Executes a command in an interactive shell window. If no command is specified, then just the shell is spawned. See also \helpref{wxExecute}{wxexecute}. \membersection{::wxSleep}\label{wxsleep} \func{void}{wxSleep}{\param{int}{ secs}} Sleeps for the specified number of seconds. \membersection{::wxStripMenuCodes} \func{wxString}{wxStripMenuCodes}{\param{const wxString\& }{in}} \func{void}{wxStripMenuCodes}{\param{char* }{in}, \param{char* }{out}} Strips any menu codes from {\it in} and places the result in {\it out} (or returns the new string, in the first form). Menu codes include \& (mark the next character with an underline as a keyboard shortkey in Windows and Motif) and $\backslash$t (tab in Windows). \membersection{::wxStartTimer}\label{wxstarttimer} \func{void}{wxStartTimer}{\void} Starts a stopwatch; use \helpref{::wxGetElapsedTime}{wxgetelapsedtime} to get the elapsed time. See also \helpref{wxTimer}{wxtimer}. \membersection{::wxToLower}\label{wxtolower} \func{char}{wxToLower}{\param{char }{ch}} Converts the character to lower case. This is implemented as a macro for efficiency. \membersection{::wxToUpper}\label{wxtoupper} \func{char}{wxToUpper}{\param{char }{ch}} Converts the character to upper case. This is implemented as a macro for efficiency. \membersection{::wxTrace}\label{wxtrace} \func{void}{wxTrace}{\param{const wxString\& }{fmt}, \param{...}{}} Takes printf-style variable argument syntax. Output is directed to the current output stream (see \helpref{wxDebugContext}{wxdebugcontextoverview}). This function is now obsolete, replaced by \helpref{Log functions}{logfunctions}. \membersection{::wxTraceLevel}\label{wxtracelevel} \func{void}{wxTraceLevel}{\param{int}{ level}, \param{const wxString\& }{fmt}, \param{...}{}} Takes printf-style variable argument syntax. Output is directed to the current output stream (see \helpref{wxDebugContext}{wxdebugcontextoverview}). The first argument should be the level at which this information is appropriate. It will only be output if the level returned by wxDebugContext::GetLevel is equal to or greater than this value. This function is now obsolete, replaced by \helpref{Log functions}{logfunctions}. \membersection{::wxWriteResource}\label{wxwriteresource} \func{bool}{wxWriteResource}{\param{const wxString\& }{section}, \param{const wxString\& }{entry}, \param{const wxString\& }{value}, \param{const wxString\& }{file = NULL}} \func{bool}{wxWriteResource}{\param{const wxString\& }{section}, \param{const wxString\& }{entry}, \param{float }{value}, \param{const wxString\& }{file = NULL}} \func{bool}{wxWriteResource}{\param{const wxString\& }{section}, \param{const wxString\& }{entry}, \param{long }{value}, \param{const wxString\& }{file = NULL}} \func{bool}{wxWriteResource}{\param{const wxString\& }{section}, \param{const wxString\& }{entry}, \param{int }{value}, \param{const wxString\& }{file = NULL}} Writes a resource value into the resource database (for example, WIN.INI, or .Xdefaults). If {\it file} is NULL, WIN.INI or .Xdefaults is used, otherwise the specified file is used. Under X, the resource databases are cached until the internal function \rtfsp{\bf wxFlushResources} is called automatically on exit, when all updated resource databases are written to their files. Note that it is considered bad manners to write to the .Xdefaults file under Unix, although the WIN.INI file is fair game under Windows. See also \helpref{wxGetResource}{wxgetresource}, \helpref{wxConfigBase}{wxconfigbase}. \membersection{::wxYield} \func{bool}{wxYield}{\void} Yields control to pending messages in the windowing system. This can be useful, for example, when a time-consuming process writes to a text window. Without an occasional yield, the text window will not be updated properly, and (since Windows multitasking is cooperative) other processes will not respond. Caution should be exercised, however, since yielding may allow the user to perform actions which are not compatible with the current task. Disabling menu items or whole menus during processing can avoid unwanted reentrance of code. \section{Macros}\label{macros} These macros are defined in wxWindows. \membersection{CLASSINFO}\label{classinfo} \func{wxClassInfo *}{CLASSINFO}{className} Returns a pointer to the wxClassInfo object associated with this class. \membersection{WXDEBUG\_NEW}\label{debugnew} \func{}{WXDEBUG\_NEW}{arg} This is defined in debug mode to be call the redefined new operator with filename and line number arguments. The definition is: \begin{verbatim} #define WXDEBUG_NEW new(__FILE__,__LINE__) \end{verbatim} In non-debug mode, this is defined as the normal new operator. \membersection{DECLARE\_ABSTRACT\_CLASS} \func{}{DECLARE\_ABSTRACT\_CLASS}{className} Used inside a class declaration to declare that the class should be made known to the class hierarchy, but objects of this class cannot be created dynamically. The same as DECLARE\_CLASS. Example: \begin{verbatim} class wxCommand: public wxObject { DECLARE_ABSTRACT_CLASS(wxCommand) private: ... public: ... }; \end{verbatim} \membersection{DECLARE\_APP}\label{declareapp} \func{}{DECLARE\_APP}{className} This is used in headers to create a forward declaration of the wxGetApp function implemented by IMPLEMENT\_APP. It creates the declaration {\tt className\& wxGetApp(void)}. Example: \begin{verbatim} DECLARE_APP(MyApp) \end{verbatim} \membersection{DECLARE\_CLASS} \func{}{DECLARE\_CLASS}{className} Used inside a class declaration to declare that the class should be made known to the class hierarchy, but objects of this class cannot be created dynamically. The same as DECLARE\_ABSTRACT\_CLASS. \membersection{DECLARE\_DYNAMIC\_CLASS} \func{}{DECLARE\_DYNAMIC\_CLASS}{className} Used inside a class declaration to declare that the objects of this class should be dynamically createable from run-time type information. Example: \begin{verbatim} class wxFrame: public wxWindow { DECLARE_DYNAMIC_CLASS(wxFrame) private: const wxString\& frameTitle; public: ... }; \end{verbatim} \membersection{IMPLEMENT\_ABSTRACT\_CLASS} \func{}{IMPLEMENT\_ABSTRACT\_CLASS}{className, baseClassName} Used in a C++ implementation file to complete the declaration of a class that has run-time type information. The same as IMPLEMENT\_CLASS. Example: \begin{verbatim} IMPLEMENT_ABSTRACT_CLASS(wxCommand, wxObject) wxCommand::wxCommand(void) { ... } \end{verbatim} \membersection{IMPLEMENT\_ABSTRACT\_CLASS2} \func{}{IMPLEMENT\_ABSTRACT\_CLASS2}{className, baseClassName1, baseClassName2} Used in a C++ implementation file to complete the declaration of a class that has run-time type information and two base classes. The same as IMPLEMENT\_CLASS2. \membersection{IMPLEMENT\_APP}\label{implementapp} \func{}{IMPLEMENT\_APP}{className} This is used in the application class implementation file to make the application class known to wxWindows for dynamic construction. You use this instead of Old form: \begin{verbatim} MyApp myApp; \end{verbatim} New form: \begin{verbatim} IMPLEMENT_APP(MyApp) \end{verbatim} See also \helpref{DECLARE\_APP}{declareapp}. \membersection{IMPLEMENT\_CLASS} \func{}{IMPLEMENT\_CLASS}{className, baseClassName} Used in a C++ implementation file to complete the declaration of a class that has run-time type information. The same as IMPLEMENT\_ABSTRACT\_CLASS. \membersection{IMPLEMENT\_CLASS2} \func{}{IMPLEMENT\_CLASS2}{className, baseClassName1, baseClassName2} Used in a C++ implementation file to complete the declaration of a class that has run-time type information and two base classes. The same as IMPLEMENT\_ABSTRACT\_CLASS2. \membersection{IMPLEMENT\_DYNAMIC\_CLASS} \func{}{IMPLEMENT\_DYNAMIC\_CLASS}{className, baseClassName} Used in a C++ implementation file to complete the declaration of a class that has run-time type information, and whose instances can be created dynamically. Example: \begin{verbatim} IMPLEMENT_DYNAMIC_CLASS(wxFrame, wxWindow) wxFrame::wxFrame(void) { ... } \end{verbatim} \membersection{IMPLEMENT\_DYNAMIC\_CLASS2} \func{}{IMPLEMENT\_DYNAMIC\_CLASS2}{className, baseClassName1, baseClassName2} Used in a C++ implementation file to complete the declaration of a class that has run-time type information, and whose instances can be created dynamically. Use this for classes derived from two base classes. \membersection{WXTRACE}\label{trace} \func{}{WXTRACE}{formatString, ...} Calls wxTrace with printf-style variable argument syntax. Output is directed to the current output stream (see \helpref{wxDebugContext}{wxdebugcontextoverview}). This macro is now obsolete, replaced by \helpref{Log functions}{logfunctions}. \membersection{WXTRACELEVEL}\label{tracelevel} \func{}{WXTRACELEVEL}{level, formatString, ...} Calls wxTraceLevel with printf-style variable argument syntax. Output is directed to the current output stream (see \helpref{wxDebugContext}{wxdebugcontextoverview}). The first argument should be the level at which this information is appropriate. It will only be output if the level returned by wxDebugContext::GetLevel is equal to or greater than this value. This function is now obsolete, replaced by \helpref{Log functions}{logfunctions}. \section{wxWindows resource functions}\label{resourcefuncs} \overview{wxWindows resource system}{resourceformats} This section details functions for manipulating wxWindows (.WXR) resource files and loading user interface elements from resources. \normalbox{Please note that this use of the word `resource' is different from that used when talking about initialisation file resource reading and writing, using such functions as wxWriteResource and wxGetResource. It's just an unfortunate clash of terminology.} \helponly{For an overview of the wxWindows resource mechanism, see \helpref{the wxWindows resource system}{resourceformats}.} See also \helpref{wxWindow::LoadFromResource}{wxwindowloadfromresource} for loading from resource data. \membersection{::wxResourceAddIdentifier}\label{wxresourceaddidentifier} \func{bool}{wxResourceAddIdentifier}{\param{const wxString\& }{name}, \param{int }{value}} Used for associating a name with an integer identifier (equivalent to dynamically\rtfsp \verb$#$defining a name to an integer). Unlikely to be used by an application except perhaps for implementing resource functionality for interpreted languages. \membersection{::wxResourceClear} \func{void}{wxResourceClear}{\void} Clears the wxWindows resource table. \membersection{::wxResourceCreateBitmap} \func{wxBitmap *}{wxResourceCreateBitmap}{\param{const wxString\& }{resource}} Creates a new bitmap from a file, static data, or Windows resource, given a valid wxWindows bitmap resource identifier. For example, if the .WXR file contains the following: \begin{verbatim} static const wxString\& aiai_resource = "bitmap(name = 'aiai_resource',\ bitmap = ['aiai', wxBITMAP_TYPE_BMP_RESOURCE, 'WINDOWS'],\ bitmap = ['aiai.xpm', wxBITMAP_TYPE_XPM, 'X'])."; \end{verbatim} then this function can be called as follows: \begin{verbatim} wxBitmap *bitmap = wxResourceCreateBitmap("aiai_resource"); \end{verbatim} \membersection{::wxResourceCreateIcon} \func{wxIcon *}{wxResourceCreateIcon}{\param{const wxString\& }{resource}} Creates a new icon from a file, static data, or Windows resource, given a valid wxWindows icon resource identifier. For example, if the .WXR file contains the following: \begin{verbatim} static const wxString\& aiai_resource = "icon(name = 'aiai_resource',\ icon = ['aiai', wxBITMAP_TYPE_ICO_RESOURCE, 'WINDOWS'],\ icon = ['aiai', wxBITMAP_TYPE_XBM_DATA, 'X'])."; \end{verbatim} then this function can be called as follows: \begin{verbatim} wxIcon *icon = wxResourceCreateIcon("aiai_resource"); \end{verbatim} \membersection{::wxResourceCreateMenuBar} \func{wxMenuBar *}{wxResourceCreateMenuBar}{\param{const wxString\& }{resource}} Creates a new menu bar given a valid wxWindows menubar resource identifier. For example, if the .WXR file contains the following: \begin{verbatim} static const wxString\& menuBar11 = "menu(name = 'menuBar11',\ menu = \ [\ ['&File', 1, '', \ ['&Open File', 2, 'Open a file'],\ ['&Save File', 3, 'Save a file'],\ [],\ ['E&xit', 4, 'Exit program']\ ],\ ['&Help', 5, '', \ ['&About', 6, 'About this program']\ ]\ ])."; \end{verbatim} then this function can be called as follows: \begin{verbatim} wxMenuBar *menuBar = wxResourceCreateMenuBar("menuBar11"); \end{verbatim} \membersection{::wxResourceGetIdentifier} \func{int}{wxResourceGetIdentifier}{\param{const wxString\& }{name}} Used for retrieving the integer value associated with an identifier. A zero value indicates that the identifier was not found. See \helpref{wxResourceAddIdentifier}{wxresourceaddidentifier}. \membersection{::wxResourceParseData}\label{wxresourcedata} \func{bool}{wxResourceParseData}{\param{const wxString\& }{resource}, \param{wxResourceTable *}{table = NULL}} Parses a string containing one or more wxWindows resource objects. If the resource objects are global static data that are included into the C++ program, then this function must be called for each variable containing the resource data, to make it known to wxWindows. {\it resource} should contain data in the following form: \begin{verbatim} dialog(name = 'dialog1', style = 'wxCAPTION | wxDEFAULT_DIALOG_STYLE', title = 'Test dialog box', x = 312, y = 234, width = 400, height = 300, modal = 0, control = [wxGroupBox, 'Groupbox', '0', 'group6', 5, 4, 380, 262, [11, 'wxSWISS', 'wxNORMAL', 'wxNORMAL', 0]], control = [wxMultiText, 'Multitext', 'wxVERTICAL_LABEL', 'multitext3', 156, 126, 200, 70, 'wxWindows is a multi-platform, GUI toolkit.', [11, 'wxSWISS', 'wxNORMAL', 'wxNORMAL', 0], [11, 'wxSWISS', 'wxNORMAL', 'wxNORMAL', 0]]). \end{verbatim} This function will typically be used after including a {\tt .wxr} file into a C++ program as follows: \begin{verbatim} #include "dialog1.wxr" \end{verbatim} Each of the contained resources will declare a new C++ variable, and each of these variables should be passed to wxResourceParseData. \membersection{::wxResourceParseFile} \func{bool}{wxResourceParseFile}{\param{const wxString\& }{filename}, \param{wxResourceTable *}{table = NULL}} Parses a file containing one or more wxWindows resource objects in C++-compatible syntax. Use this function to dynamically load wxWindows resource data. \membersection{::wxResourceParseString}\label{wxresourceparsestring} \func{bool}{wxResourceParseString}{\param{const wxString\& }{resource}, \param{wxResourceTable *}{table = NULL}} Parses a string containing one or more wxWindows resource objects. If the resource objects are global static data that are included into the C++ program, then this function must be called for each variable containing the resource data, to make it known to wxWindows. {\it resource} should contain data with the following form: \begin{verbatim} static const wxString\& dialog1 = "dialog(name = 'dialog1',\ style = 'wxCAPTION | wxDEFAULT_DIALOG_STYLE',\ title = 'Test dialog box',\ x = 312, y = 234, width = 400, height = 300,\ modal = 0,\ control = [wxGroupBox, 'Groupbox', '0', 'group6', 5, 4, 380, 262,\ [11, 'wxSWISS', 'wxNORMAL', 'wxNORMAL', 0]],\ control = [wxMultiText, 'Multitext', 'wxVERTICAL_LABEL', 'multitext3',\ 156, 126, 200, 70, 'wxWindows is a multi-platform, GUI toolkit.',\ [11, 'wxSWISS', 'wxNORMAL', 'wxNORMAL', 0],\ [11, 'wxSWISS', 'wxNORMAL', 'wxNORMAL', 0]])."; \end{verbatim} This function will typically be used after calling \helpref{wxLoadUserResource}{wxloaduserresource} to load an entire {\tt .wxr file} into a string. \membersection{::wxResourceRegisterBitmapData}\label{registerbitmapdata} \func{bool}{wxResourceRegisterBitmapData}{\param{const wxString\& }{name}, \param{const wxString\& }{xbm\_data}, \param{int }{width}, \param{int }{height}, \param{wxResourceTable *}{table = NULL}} \func{bool}{wxResourceRegisterBitmapData}{\param{const wxString\& }{name}, \param{const wxString\& *}{xpm\_data}} Makes \verb$#$included XBM or XPM bitmap data known to the wxWindows resource system. This is required if other resources will use the bitmap data, since otherwise there is no connection between names used in resources, and the global bitmap data. \membersection{::wxResourceRegisterIconData} Another name for \helpref{wxResourceRegisterBitmapData}{registerbitmapdata}. \section{Log functions}\label{logfunctions} These functions provide a variety of logging functions: see \helpref{Log classes overview}{wxlogoverview} for further information. \membersection{::wxLogError}\label{wxlogerror} \func{void}{wxLogError}{\param{const char*}{ formatString}, \param{...}{}} The function to use for error messages, i.e. the messages that must be shown to the user. The default processing is to pop up a message box to inform the user about it. \membersection{::wxLogFatalError}\label{wxlogfatalerror} \func{void}{wxLogFatalError}{\param{const char*}{ formatString}, \param{...}{}} Like \helpref{wxLogError}{wxlogerror}, but also terminates the program with the exit code 3. Using {\it abort()} standard function also terminates the program with this exit code. \membersection{::wxLogWarning}\label{wxlogwarning} \func{void}{wxLogWarning}{\param{const char*}{ formatString}, \param{...}{}} For warnings - they are also normally shown to the user, but don't interrupt the program work. \membersection{::wxLogMessage}\label{wxlogmessage} \func{void}{wxLogMessage}{\param{const char*}{ formatString}, \param{...}{}} for all normal, informational messages. They also appear in a message box by default (but it can be changed). Notice that the standard behaviour is to not show informational messages if there are any errors later - the logic being that the later error messages make the informational messages preceding them meaningless. \membersection{::wxLogVerbose}\label{wxlogverbose} \func{void}{wxLogVerbose}{\param{const char*}{ formatString}, \param{...}{}} For verbose output. Normally, it's suppressed, but might be activated if the user wishes to know more details about the program progress (another, but possibly confusing name for the same function is {\bf wxLogInfo}). \membersection{::wxLogStatus}\label{wxlogstatus} \func{void}{wxLogStatus}{\param{const char*}{ formatString}, \param{...}{}} For status messages - they will go into the status bar of the active or specified (as the first argument) \helpref{wxFrame}{wxframe} if it has one. \membersection{::wxLogSysError}\label{wxlogsyserror} \func{void}{wxLogSysError}{\param{const char*}{ formatString}, \param{...}{}} Mostly used by wxWindows itself, but might be handy for logging errors after system call (API function) failure. It logs the specified message text as well as the last system error code ({\it errno} or {\it ::GetLastError()} depending on the platform) and the corresponding error message. The second form of this function takes the error code explitly as the first argument. \membersection{::wxLogDebug}\label{wxlogdebug} \func{void}{wxLogDebug}{\param{const char*}{ formatString}, \param{...}{}} The right function for debug output. It only does anything at all in the debug mode (when the preprocessor symbol \_\_WXDEBUG\_\_ is defined) and expands to nothing in release mode (otherwise). \membersection{::wxLogTrace}\label{wxlogtrace} \func{void}{wxLogTrace}{\param{const char*}{ formatString}, \param{...}{}} \func{void}{wxLogTrace}{\param{wxTraceMask}{ mask}, \param{const char*}{ formatString}, \param{...}{}} As {\bf wxLogDebug}, only does something in debug build. The reason for making it a separate function from it is that usually there are a lot of trace messages, so it might make sense to separate them from other debug messages which would be flooded in them. Moreover, the second version of this function takes a trace mask as the first argument which allows to further restrict the amount of messages generated. The value of {\it mask} can be: \begin{itemize}\itemsep=0pt \item wxTraceMemAlloc: trace memory allocation (new/delete) \item wxTraceMessages: trace window messages/X callbacks \item wxTraceResAlloc: trace GDI resource allocation \item wxTraceRefCount: trace various ref counting operations \end{itemize} \section{Debugging macros and functions}\label{debugmacros} Useful macros and functins for error checking and defensive programming. ASSERTs are only compiled if \_\_WXDEBUG\_\_ is defined, whereas CHECK macros stay in release builds. \membersection{::wxOnAssert}\label{wxonassert} \func{void}{wxOnAssert}{\param{const char*}{ fileName}, \param{int}{ lineNumber}, \param{const char*}{ msg = NULL}} This function may be redefined to do something non trivial and is called whenever one of debugging macros fails (i.e. condition is false in an assertion). TODO: this should probably be an overridable in wxApp. \membersection{wxASSERT}\label{wxassert} \func{}{wxASSERT}{\param{}{condition}} Assert macro. An error message will be generated if the condition is FALSE. \membersection{wxASSERT\_MSG}\label{wxassertmsg} \func{}{wxASSERT\_MSG}{\param{}{condition}, \param{}{msg}} Assert macro with message. An error message will be generated if the condition is FALSE. \membersection{wxFAIL}\label{wxfail} \func{}{wxFAIL}{\param{}{condition}} Will always generate an assert error if this code is reached (in debug mode). \membersection{wxFAIL\_MSG}\label{wxfailmsg} \func{}{wxFAIL\_MSG}{\param{}{condition}, \param{}{msg}} Will always generate an assert error with specified message if this code is reached (in debug mode). \membersection{wxCHECK}\label{wxcheck} \func{}{wxCHECK}{\param{}{condition}, \param{}{retValue}} Checks that the condition is true, returns with the given return value if not (FAILs in debug mode). This check is done even in release mode. \membersection{wxCHECK\_MSG}\label{wxcheckmsg} \func{}{wxCHECK\_MSG}{\param{}{condition}, \param{}{retValue}, \param{}{msg}} Checks that the condition is true, returns with the given return value if not (FAILs in debug mode). This check is done even in release mode.