wxWidgets/interface/wx/utils.h
Vadim Zeitlin 717e851225 Allow to leave another window enabled in wxWindowDisabler
Allow specifying another window to "skip", i.e. not to disable, in
wxWindowDisabler.

This is not used yet, but will be in the upcoming commit.
2022-04-07 23:38:16 +01:00

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/////////////////////////////////////////////////////////////////////////////
// Name: utils.h
// Purpose: interface of various utility classes and functions
// Author: wxWidgets team
// Licence: wxWindows licence
/////////////////////////////////////////////////////////////////////////////
/**
Signal constants used by wxProcess.
*/
enum wxSignal
{
wxSIGNONE = 0, //!< verify if the process exists under Unix
wxSIGHUP,
wxSIGINT,
wxSIGQUIT,
wxSIGILL,
wxSIGTRAP,
wxSIGABRT,
wxSIGEMT,
wxSIGFPE,
wxSIGKILL, //!< forcefully kill, dangerous!
wxSIGBUS,
wxSIGSEGV,
wxSIGSYS,
wxSIGPIPE,
wxSIGALRM,
wxSIGTERM //!< terminate the process gently
};
/**
Return values for wxProcess::Kill.
*/
enum wxKillError
{
wxKILL_OK, //!< no error
wxKILL_BAD_SIGNAL, //!< no such signal
wxKILL_ACCESS_DENIED, //!< permission denied
wxKILL_NO_PROCESS, //!< no such process
wxKILL_ERROR //!< another, unspecified error
};
enum wxKillFlags
{
wxKILL_NOCHILDREN = 0, //!< don't kill children
wxKILL_CHILDREN = 1 //!< kill children
};
enum wxShutdownFlags
{
wxSHUTDOWN_FORCE = 1, //!< can be combined with other flags (MSW-only)
wxSHUTDOWN_POWEROFF = 2, //!< power off the computer
wxSHUTDOWN_REBOOT = 4, //!< shutdown and reboot
wxSHUTDOWN_LOGOFF = 8 //!< close session (currently MSW-only)
};
/**
@class wxWindowDisabler
This class disables all top level windows of the application (maybe with
the exception of one of them) in its constructor and enables them back in
its destructor.
This is useful when you want to indicate to the user that the application
is currently busy and cannot respond to user input.
@note When instantiated, this affects only windows shown on the screen and
not already disabled.
@library{wxcore}
@category{misc}
@see wxBusyCursor
*/
class wxWindowDisabler
{
public:
/**
Disables all top level windows of the applications.
If @a disable is @c false nothing is done. This can be convenient if
the windows should be disabled depending on some condition.
@since 2.9.0
*/
explicit wxWindowDisabler(bool disable = true);
/**
Disables all top level windows of the applications with the exception
of @a winToSkip if it is not @NULL.
Notice that under MSW if @a winToSkip appears in the taskbar, the user
will be able to close the entire application (even though its main
window is disabled) by right clicking on the taskbar icon and selecting
the appropriate "Close" command from the context menu. To prevent this
from happening you may want to use wxFRAME_TOOL_WINDOW, if applicable,
or wxFRAME_NO_TASKBAR style when creating the window that will remain
enabled.
The argument @a winToSkip2 may be used to specify another window to
leave enabled, if it is non-null. This parameter is only available
since wxWidgets 3.1.7.
*/
explicit wxWindowDisabler(wxWindow* winToSkip, wxWindow* winToSkip2 = NULL);
/**
Reenables the windows disabled by the constructor.
*/
~wxWindowDisabler();
};
/**
@class wxBusyCursor
This class makes it easy to tell your user that the program is temporarily
busy. Just create a wxBusyCursor object on the stack, and within the
current scope, the hourglass will be shown.
For example:
@code
wxBusyCursor wait;
for (int i = 0; i < 100000; i++)
DoACalculation();
@endcode
It works by calling wxBeginBusyCursor() in the constructor, and
wxEndBusyCursor() in the destructor.
@library{wxcore}
@category{misc}
@see wxBeginBusyCursor(), wxEndBusyCursor(), wxWindowDisabler
*/
class wxBusyCursor
{
public:
/**
Constructs a busy cursor object, calling wxBeginBusyCursor().
*/
wxBusyCursor(const wxCursor* cursor = wxHOURGLASS_CURSOR);
/**
Destroys the busy cursor object, calling wxEndBusyCursor().
*/
~wxBusyCursor();
};
// ============================================================================
// Global functions/macros
// ============================================================================
/** @addtogroup group_funcmacro_dialog */
//@{
/**
Changes the cursor to the given cursor for all windows in the application.
Use 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 wxIsBusy(), wxBusyCursor
@header{wx/utils.h}
*/
void wxBeginBusyCursor(const wxCursor* cursor = wxHOURGLASS_CURSOR);
/**
Changes the cursor back to the original cursor, for all windows in the
application. Use with wxBeginBusyCursor().
@see wxIsBusy(), wxBusyCursor
@header{wx/utils.h}
*/
void wxEndBusyCursor();
/**
Returns @true if between two wxBeginBusyCursor() and wxEndBusyCursor()
calls.
@see wxBusyCursor.
@header{wx/utils.h}
*/
bool wxIsBusy();
/**
Ring the system bell.
@note This function is categorized as a GUI one and so is not thread-safe.
@header{wx/utils.h}
@library{wxcore}
*/
void wxBell();
/**
Shows a message box with the information about the wxWidgets build used,
including its version, most important build parameters and the version of
the underlying GUI toolkit. This is mainly used for diagnostic purposes
and can be invoked by Ctrl-Alt-middle clicking on any wxWindow which
doesn't otherwise handle this event.
@since 2.9.0
@see wxGetLibraryVersionInfo()
@header{wx/utils.h}
*/
void wxInfoMessageBox(wxWindow* parent);
//@}
/** @addtogroup group_funcmacro_version */
//@{
/**
Get wxWidgets version information.
@since 2.9.2
@see wxVersionInfo
@header{wx/utils.h}
@library{wxcore}
*/
wxVersionInfo wxGetLibraryVersionInfo();
//@}
/** @addtogroup group_funcmacro_env */
//@{
/**
A map type containing environment variables names and values.
This type is used with wxGetEnvMap() function and wxExecuteEnv structure
optionally passed to wxExecute().
@since 2.9.2
@header{wx/utils.h}
*/
typedef wxStringToStringHashMap wxEnvVariableHashMap;
/**
This is a macro defined as @c getenv() or its wide char version in Unicode
mode.
Note that under Win32 it may not return correct value for the variables set
with wxSetEnv(), use wxGetEnv() function instead.
@header{wx/utils.h}
*/
wxChar* wxGetenv(const wxString& var);
/**
Returns the current value of the environment variable @a var in @a value.
@a value may be @NULL if you just want to know if the variable exists and
are not interested in its value.
Returns @true if the variable exists, @false otherwise.
@header{wx/utils.h}
*/
bool wxGetEnv(const wxString& var, wxString* value);
/**
Sets the value of the environment variable @a var (adding it if necessary)
to @a value.
Notice that under Windows platforms the program may have two different
environment blocks: the first one is that of a Windows process and is
always present, but the CRT may maintain its own independent copy of the
environment. wxSetEnv() will always update the first copy, which means that
wxGetEnv(), which uses it directly, will always return the expected value
after this call. But wxSetEnv() only updates the second copy for some
compilers/CRT implementations (currently only MSVC and MinGW which uses the
same MSVC CRT) and so using wxGetenv() (notice the difference in case) may
not return the updated value.
@param var
The environment variable to be set, must not contain @c '=' character.
@param value
New value of the variable.
@return
@true on success or @false if changing the value failed.
@see wxUnsetEnv()
@header{wx/utils.h}
*/
bool wxSetEnv(const wxString& var, const wxString& value);
/**
Removes the variable @a var from the environment.
wxGetEnv() will return @NULL after the call to this function.
Returns @true on success.
@header{wx/utils.h}
*/
bool wxUnsetEnv(const wxString& var);
/**
Fill a map with the complete content of current environment.
The map will contain the environment variable names as keys and their
values as values.
@param map
The environment map to fill, must be non-@NULL.
@return
@true if environment was successfully retrieved or @false otherwise.
@header{wx/utils.h}
@since 2.9.2
*/
bool wxGetEnvMap(wxEnvVariableHashMap *map);
//@}
/** @addtogroup group_funcmacro_misc */
//@{
/**
Fills the memory block with zeros in a way that is guaranteed
not to be optimized away by the compiler.
@param p Pointer to the memory block to be zeroed, must be non-@NULL.
@param n The number of bytes to zero.
NOTE: If security is vitally important in your use case, please
have a look at the implementations and decide whether you trust
them to behave as promised.
@header{wx/utils.h}
@since 3.1.6
*/
void wxSecureZeroMemory(void *p, size_t n);
/**
Returns battery state as one of @c wxBATTERY_NORMAL_STATE,
@c wxBATTERY_LOW_STATE, @c wxBATTERY_CRITICAL_STATE,
@c wxBATTERY_SHUTDOWN_STATE or @c wxBATTERY_UNKNOWN_STATE.
@c wxBATTERY_UNKNOWN_STATE is also the default on platforms where this
feature is not implemented (currently everywhere but MS Windows).
@header{wx/utils.h}
*/
wxBatteryState wxGetBatteryState();
/**
Returns the type of power source as one of @c wxPOWER_SOCKET,
@c wxPOWER_BATTERY or @c wxPOWER_UNKNOWN. @c wxPOWER_UNKNOWN is also the
default on platforms where this feature is not implemented (currently
everywhere but MS Windows).
@header{wx/utils.h}
*/
wxPowerType wxGetPowerType();
/**
Under X only, returns the current display name.
@see wxSetDisplayName()
@header{wx/utils.h}
*/
wxString wxGetDisplayName();
/**
This function returns the total number of bytes and number of free bytes on
the disk containing the directory @a path (it should exist). Both @a total
and @a free parameters may be @NULL if the corresponding information is not
needed.
@since 2.3.2
@note The generic Unix implementation depends on the system having the
@c statfs() or @c statvfs() function.
@return @true on success, @false if an error occurred (for example, the
directory doesnt exist).
@header{wx/utils.h}
*/
bool wxGetDiskSpace(const wxString& path,
wxLongLong total = NULL,
wxLongLong free = NULL);
/**
For normal keys, returns @true if the specified key is currently down.
For togglable keys (Caps Lock, Num Lock and Scroll Lock), returns @true if
the key is toggled such that its LED indicator is lit. There is currently
no way to test whether togglable keys are up or down.
Even though there are virtual key codes defined for mouse buttons, they
cannot be used with this function currently.
In wxGTK, this function can be only used with modifier keys (@c WXK_ALT, @c
WXK_CONTROL and @c WXK_SHIFT) when not using X11 backend currently.
@header{wx/utils.h}
*/
bool wxGetKeyState(wxKeyCode key);
/**
Returns the mouse position in screen coordinates.
@header{wx/utils.h}
*/
wxPoint wxGetMousePosition();
/**
Returns the current state of the mouse. Returns a wxMouseState instance
that contains the current position of the mouse pointer in screen
coordinates, as well as boolean values indicating the up/down status of the
mouse buttons and the modifier keys.
@header{wx/utils.h}
*/
wxMouseState wxGetMouseState();
/**
This function enables or disables all top level windows. It is used by
wxSafeYield().
@header{wx/utils.h}
*/
void wxEnableTopLevelWindows(bool enable = true);
/**
Find the deepest window at the given mouse position in screen coordinates,
returning the window if found, or @NULL if not.
This function takes child windows at the given position into account even
if they are disabled. The hidden children are however skipped by it.
@header{wx/utils.h}
*/
wxWindow* wxFindWindowAtPoint(const wxPoint& pt);
/**
@deprecated Replaced by wxWindow::FindWindowByLabel().
Find a window by its label. Depending on the type of window, the label may
be a window title or panel item label. If @a 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.
@header{wx/utils.h}
*/
wxWindow* wxFindWindowByLabel(const wxString& label,
wxWindow* parent = NULL);
/**
@deprecated Replaced by wxWindow::FindWindowByName().
Find a window by its name (as given in a window constructor or @e Create
function call). If @a 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, wxFindWindowByLabel() is called.
@header{wx/utils.h}
*/
wxWindow* wxFindWindowByName(const wxString& name, wxWindow* parent = NULL);
/**
Find a menu item identifier associated with the given frame's menu bar.
@header{wx/utils.h}
*/
int wxFindMenuItemId(wxFrame* frame, const wxString& menuString,
const wxString& itemString);
/**
@deprecated Ids generated by it can conflict with the Ids defined by the
user code, use @c wxID_ANY to assign ids which are guaranteed
to not conflict with the user-defined ids for the controls and
menu items you create instead of using this function.
Generates an integer identifier unique to this run of the program.
@see wxRegisterId()
@header{wx/utils.h}
*/
wxWindowID wxNewId();
/**
Ensures that Ids subsequently generated by wxNewId() do not clash with the
given @a id.
@header{wx/utils.h}
*/
void wxRegisterId(wxWindowID id);
/**
Opens the @a document in the application associated with the files of this
type.
The @a flags parameter is currently not used
Returns @true if the application was successfully launched.
@see wxLaunchDefaultBrowser(), wxExecute()
@header{wx/utils.h}
*/
bool wxLaunchDefaultApplication(const wxString& document, int flags = 0);
/**
Opens the @a url in user's default browser.
If the @a flags parameter contains @c wxBROWSER_NEW_WINDOW flag, a new
window is opened for the URL (currently this is only supported under
Windows).
And unless the @a flags parameter contains @c wxBROWSER_NOBUSYCURSOR flag,
a busy cursor is shown while the browser is being launched (using
wxBusyCursor).
The parameter @a url is interpreted as follows:
- if it has a valid scheme (e.g. @c "file:", @c "http:" or @c "mailto:")
it is passed to the appropriate browser configured in the user system.
- if it has no valid scheme (e.g. it's a local file path without the @c "file:"
prefix), then ::wxFileExists and ::wxDirExists are used to test if it's a
local file/directory; if it is, then the browser is called with the
@a url parameter eventually prefixed by @c "file:".
- if it has no valid scheme and it's not a local file/directory, then @c "http:"
is prepended and the browser is called.
Returns @true if the application was successfully launched.
@note For some configurations of the running user, the application which is
launched to open the given URL may be URL-dependent (e.g. a browser
may be used for local URLs while another one may be used for remote
URLs).
@see wxLaunchDefaultApplication(), wxExecute()
@header{wx/utils.h}
*/
bool wxLaunchDefaultBrowser(const wxString& url, int flags = 0);
/**
Loads an object from Windows resource file.
This function loads the resource with the given name and type from the
resources embedded into a Windows application.
The typical use for it is to load some data from the data files embedded
into the program itself. For example, you could have the following fragment
in your @c .rc file
@code
mydata MYDATA "myfile.dat"
@endcode
and then use it in the following way:
@code
const void* data = NULL;
size_t size = 0;
if ( !wxLoadUserResource(&data, &size, "mydata", "MYDATA") ) {
... handle error ...
}
else {
// Use the data in any way, for example:
wxMemoryInputStream is(data, size);
... read the data from stream ...
}
@endcode
@param outData Filled with the pointer to the data on successful return.
Notice that this pointer does @em not need to be freed by the caller.
@param outLen Filled with the length of the data in bytes.
@param resourceName The name of the resource to load.
@param resourceType The type of the resource in usual Windows format, i.e.
either a real string like "MYDATA" or an integer created by the
standard Windows @c MAKEINTRESOURCE() macro, including any constants
for the standard resources types like @c RT_RCDATA.
@param module The @c HINSTANCE of the module to load the resources from.
The current module is used by default.
@return true if the data was loaded from resource or false if it couldn't
be found (in which case no error is logged) or was found but couldn't
be loaded (which is unexpected and does result in an error message).
This function is available under Windows only.
@library{wxbase}
@header{wx/utils.h}
@since 2.9.1
*/
bool
wxLoadUserResource(const void **outData,
size_t *outLen,
const wxString& resourceName,
const wxChar* resourceType = "TEXT",
WXHINSTANCE module = 0);
/**
Loads a user-defined Windows resource as a string.
This is a wrapper for the general purpose overload wxLoadUserResource(const
void**, size_t*, const wxString&, const wxChar*, WXHINSTANCE) and can be
more convenient for the string data, but does an extra copy compared to the
general version.
@param resourceName The name of the resource to load.
@param resourceType The type of the resource in usual Windows format, i.e.
either a real string like "MYDATA" or an integer created by the
standard Windows @c MAKEINTRESOURCE() macro, including any constants
for the standard resources types like @c RT_RCDATA.
@param pLen Filled with the length of the returned buffer if it is
non-@NULL. This parameter should be used if NUL characters can occur in
the resource data. It is new since wxWidgets 2.9.1
@param module The @c HINSTANCE of the module to load the resources from.
The current module is used by default. This parameter is new since
wxWidgets 2.9.1.
@return A pointer to the data to be <tt>delete[]</tt>d by caller on success
or @NULL on error.
This function is available under Windows only.
@library{wxbase}
@header{wx/utils.h}
*/
char* wxLoadUserResource(const wxString& resourceName,
const wxChar* resourceType = "TEXT",
int* pLen = NULL,
WXHINSTANCE module = 0);
/**
@deprecated Replaced by wxWindow::Close(). See the
@ref overview_windowdeletion "window deletion overview".
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 some GUIs
will still send events to a deleted window.
@header{wx/utils.h}
*/
void wxPostDelete(wxObject* object);
/**
Compare function type for use with wxQsort()
@header{wx/utils.h}
*/
typedef int (*wxSortCallback)(const void* pItem1, const void* pItem2, const void* user_data);
/**
Function implementing quick sort algorithm.
This function sorts @a total_elems objects of size @a size located at @a
pbase. It uses @a cmp function for comparing them and passes @a user_data
pointer to the comparison function each time it's called.
@header{wx/utils.h}
*/
void wxQsort(void* pbase, size_t total_elems,
size_t size, wxSortCallback cmp, const void* user_data);
/**
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 wxGetDisplayName()
@header{wx/utils.h}
*/
void wxSetDisplayName(const wxString& displayName);
/**
flags for wxStripMenuCodes
*/
enum
{
/**
Strip '&' characters.
This flag removes all the ampersands before another character and
replaces double ampersands with a single one.
*/
wxStrip_Mnemonics = 1,
/**
Strip everything after '\\t'.
This flags removes everything following the last TAB character in the
string, if any.
*/
wxStrip_Accel = 2,
/**
Strip everything looking like CJK mnemonic.
CJK (Chinese, Japanese, Korean) translations sometimes preserve the
original English accelerator or mnemonic in the translated string by
putting it after the translated string in parentheses, e.g. the string
"&File" could be translated as "<translation-of-word-file> (&F)".
This flag strips trailing "(&X)" from the string.
@since 3.1.3
*/
wxStrip_CJKMnemonics = 4,
/**
Strip both mnemonics and accelerators.
This is the value used by wxStripMenuCodes() by default.
Note that, despite the name, this flag does @e not strip all, as it
doesn't include wxStrip_CJKMnemonics for compatibility.
*/
wxStrip_All = wxStrip_Mnemonics | wxStrip_Accel,
/**
Strip everything from menu item labels.
This flag is used by wxWidgets internally and removes CJK mnemonics
from the labels too, in addition to the usual mnemonics and
accelerators. It is only suitable for use with the menu items.
*/
wxStrip_Menu = wxStrip_All | wxStrip_CJKMnemonics
};
/**
Strips any menu codes from @a str and returns the result.
By default, the functions strips both the mnemonics character (@c '&')
which is used to indicate a keyboard shortkey, and the accelerators, which
are used only in the menu items and are separated from the main text by the
@c \\t (TAB) character. By using @a flags of @c wxStrip_Mnemonics or
@c wxStrip_Accel to strip only the former or the latter part, respectively.
Notice that in most cases wxMenuItem::GetLabelFromText() or
wxControl::GetLabelText() can be used instead.
@header{wx/utils.h}
*/
wxString wxStripMenuCodes(const wxString& str, int flags = wxStrip_All);
//@}
/** @addtogroup group_funcmacro_networkuseros */
//@{
/**
Copies the user's email address into the supplied buffer, by concatenating
the values returned by wxGetFullHostName() and wxGetUserId().
@return @true if successful, @false otherwise.
@header{wx/utils.h}
*/
wxString wxGetEmailAddress();
/**
@deprecated Use wxGetEmailAddress() instead.
@param buf Buffer to store the email address in.
@param sz Size of the buffer.
@return @true if successful, @false otherwise.
@header{wx/utils.h}
*/
bool wxGetEmailAddress(char* buf, int sz);
/**
Returns the amount of free memory in bytes under environments which support
it, and -1 if not supported or failed to perform measurement.
@header{wx/utils.h}
*/
wxMemorySize wxGetFreeMemory();
/**
Return the (current) user's home directory.
@see wxGetUserHome(), wxStandardPaths
@header{wx/utils.h}
*/
wxString wxGetHomeDir();
/**
Copies the current host machine's name into the supplied buffer. Please
note that the returned name is @e not fully qualified, i.e. it does not
include the domain name.
@return The hostname if successful or an empty string otherwise.
@see wxGetFullHostName()
@header{wx/utils.h}
*/
wxString wxGetHostName();
/**
@deprecated Use wxGetHostName() instead.
@param buf Buffer to store the host name in.
@param sz Size of the buffer.
@return @true if successful, @false otherwise.
@header{wx/utils.h}
*/
bool wxGetHostName(char* buf, int sz);
/**
Returns the FQDN (fully qualified domain host name) or an empty string on
error.
@see wxGetHostName()
@header{wx/utils.h}
*/
wxString wxGetFullHostName();
/**
Returns the home directory for the given user. If the @a user is empty
(default value), this function behaves like wxGetHomeDir() (i.e. returns
the current user home directory).
If the home directory couldn't be determined, an empty string is returned.
@header{wx/utils.h}
*/
wxString wxGetUserHome(const wxString& user = wxEmptyString);
/**
This function returns the "user id" also known as "login name" under Unix
(i.e. something like "jsmith"). It uniquely identifies the current user (on
this system). Under Windows or NT, this function first looks in the
environment variables USER and LOGNAME; if neither of these is found, the
entry @b UserId in the @b wxWidgets section of the WIN.INI file is tried.
@return The login name if successful or an empty string otherwise.
@see wxGetUserName()
@header{wx/utils.h}
*/
wxString wxGetUserId();
/**
@deprecated Use wxGetUserId() instead.
@param buf Buffer to store the login name in.
@param sz Size of the buffer.
@return @true if successful, @false otherwise.
@header{wx/utils.h}
*/
bool wxGetUserId(char* buf, int sz);
/**
This function returns the full user name (something like "Mr. John Smith").
Under Windows or NT, this function looks for the entry UserName in the
wxWidgets section of the WIN.INI file. If PenWindows is running, the entry
Current in the section User of the PENWIN.INI file is used.
@return The full user name if successful or an empty string otherwise.
@see wxGetUserId()
@header{wx/utils.h}
*/
wxString wxGetUserName();
/**
@deprecated Use wxGetUserName() instead.
@param buf Buffer to store the full user name in.
@param sz Size of the buffer.
@return @true if successful, @false otherwise.
@header{wx/utils.h}
*/
bool wxGetUserName(char* buf, int sz);
/**
Returns the string containing the description of the current platform in a
user-readable form. For example, this function may return strings like
"Windows 10 (build 10240), 64-bit edition" or "Linux 4.1.4 i386".
@see wxGetOsVersion()
@header{wx/utils.h}
*/
wxString wxGetOsDescription();
/**
Gets the version and the operating system ID for currently running OS.
The returned wxOperatingSystemId value can be used for a basic categorization
of the OS family; the major, minor, and micro version numbers allows
detecting a specific system.
If on Unix-like systems the version can't be detected all three version
numbers will have a value of -1.
On systems where only the micro version can't be detected or doesn't make
sense, it will have a value of 0.
For Unix-like systems (@c wxOS_UNIX) the major, minor, and micro version
integers will contain the kernel's major, minor, and micro version
numbers (as returned by the 'uname -r' command); e.g. "4", "1", and "4" if
the machine is using kernel 4.1.4.
For macOS systems (@c wxOS_MAC) the major and minor version integers are the
natural version numbers associated with the OS; e.g. "10", "11" and "2" if
the machine is using macOS El Capitan 10.11.2.
For Windows-like systems (@c wxOS_WINDOWS) the major, minor and micro
(equal to the build number) version integers will contain the following values:
<table>
<tr>
<th>Windows OS name</th>
<th>Major version</th>
<th>Minor version</th>
<th>Build number</th>
</tr>
<tr>
<td>Windows 11</td>
<td>10</td>
<td>0</td>
<td>&gt;= 22000</td>
</tr>
<tr>
<td>Windows Server 2022</td>
<td>10</td>
<td>0</td>
<td>&gt;= 22000</td>
</tr>
<tr>
<td>Windows 10</td>
<td>10</td>
<td>0</td>
<td></td>
</tr>
<tr>
<td>Windows Server 2016</td>
<td>10</td>
<td>0</td>
<td></td>
</tr>
<tr>
<td>Windows 8.1</td>
<td>6</td>
<td>3</td>
<td></td>
</tr>
<tr>
<td>Windows Server 2012 R2</td>
<td>6</td>
<td>3</td>
<td></td>
</tr>
<tr>
<td>Windows 8</td>
<td>6</td>
<td>2</td>
<td></td>
</tr>
<tr>
<td>Windows Server 2012</td>
<td>6</td>
<td>2</td>
<td></td>
</tr>
<tr>
<td>Windows 7</td>
<td>6</td>
<td>1</td>
<td></td>
</tr>
<tr>
<td>Windows 2008 R2</td>
<td>6</td>
<td>1</td>
<td></td>
</tr>
<tr>
<td>Windows Vista</td>
<td>6</td>
<td>0</td>
<td></td>
</tr>
<tr>
<td>Windows Server 2008</td>
<td>6</td>
<td>0</td>
<td></td>
</tr>
<tr>
<td>Windows Server 2003 R2</td>
<td>5</td>
<td>2</td>
<td></td>
</tr>
<tr>
<td>Windows Server 2003</td>
<td>5</td>
<td>2</td>
<td></td>
</tr>
<tr>
<td>Windows XP</td>
<td>5</td>
<td>1</td>
<td></td>
</tr>
</table>
See the <a href="http://msdn.microsoft.com/en-us/library/ms724832(VS.85).aspx">MSDN</a>
for more info about the values above.
@see wxGetOsDescription(), wxPlatformInfo
@header{wx/utils.h}
*/
wxOperatingSystemId wxGetOsVersion(int* major = NULL, int* minor = NULL, int* micro = NULL);
/**
Returns @true if the version of the operating system on which the program
is running under is the same or later than the given version.
@since 3.1.0
@see wxGetOsVersion(), wxPlatformInfo
@header{wx/utils.h}
*/
bool wxCheckOsVersion(int majorVsn, int minorVsn = 0, int microVsn = 0);
/**
Returns @true if the operating system the program is running under is 64
bit. The check is performed at run-time and may differ from the value
available at compile-time (at compile-time you can just check if
<tt>sizeof(void*) == 8</tt>) since the program could be running in
emulation mode or in a mixed 32/64 bit system.
@note This function is not 100% reliable on some systems given the fact
that there isn't always a standard way to do a reliable check on the
OS bitness.
@header{wx/utils.h}
*/
bool wxIsPlatform64Bit();
/**
Returns @true if the current platform is little endian (instead of big
endian). The check is performed at run-time.
@see @ref group_funcmacro_byteorder "Byte Order Functions and Macros"
@header{wx/utils.h}
*/
bool wxIsPlatformLittleEndian();
/**
Returns the CPU architecture name. This can be, for example, "x86_64",
"arm64", or "i86pc". The name for the same CPU running on the same
hardware can vary across operating systems.
The returned string may be empty if the CPU architecture couldn't be
recognized.
@see wxGetNativeCpuArchitectureName()
@since 3.1.5
*/
wxString wxGetCpuArchitectureName();
/**
In some situations the current process and native CPU architecture may be
different. This returns the native CPU architecture regardless of the
current process CPU architecture.
Common examples for CPU architecture differences are the following:
- Win32 process in x64 Windows (WoW)
- Win32 or x64 process on ARM64 Windows (WoW64)
- x86_64 process on ARM64 macOS (Rosetta 2)
The returned string may be empty if the CPU architecture couldn't be
recognized.
@see wxGetCpuArchitectureName()
@since 3.1.6
*/
wxString wxGetNativeCpuArchitectureName();
/**
Returns a structure containing information about the currently running
Linux distribution.
This function uses the @c lsb_release utility which is part of the
<tt>Linux Standard Base Core</tt> specification
(see http://refspecs.linux-foundation.org/lsb.shtml) since the very first LSB
release 1.0 (released in 2001).
The @c lsb_release utility is very common on modern Linux distributions but in
case it's not available, then this function will return a ::wxLinuxDistributionInfo
structure containing empty strings.
This function is Linux-specific and is only available when the @c __LINUX__
symbol is defined.
*/
wxLinuxDistributionInfo wxGetLinuxDistributionInfo();
//@}
/** @addtogroup group_funcmacro_procctrl */
//@{
/**
@struct wxExecuteEnv
This structure can optionally be passed to wxExecute() to specify
additional options to use for the child process.
@since 2.9.2
@header{wx/utils.h}
*/
struct wxExecuteEnv
{
/**
The initial working directory for the new process.
If this field is empty, the current working directory of this process
is used.
*/
wxString cwd;
/**
The environment variable map.
If the map is empty, the environment variables of the current process
are also used for the child one, otherwise only the variables defined
in this map are used.
*/
wxEnvVariableHashMap env;
};
/**
Bit flags that can be used with wxExecute().
*/
enum
{
/**
Execute the process asynchronously.
Notice that, due to its value, this is the default.
*/
wxEXEC_ASYNC = 0,
/**
Execute the process synchronously.
*/
wxEXEC_SYNC = 1,
/**
Always show the child process console under MSW.
The child console is hidden by default if the child IO is redirected,
this flag allows changing this and showing it nevertheless.
This flag is ignored under the other platforms.
*/
wxEXEC_SHOW_CONSOLE = 2,
/**
Make the new process a group leader.
Under Unix, if the process is the group leader then passing
wxKILL_CHILDREN to wxKill() kills all children as well as pid.
Under MSW, applies only to console applications. It corresponds to the
native @c CREATE_NEW_PROCESS_GROUP and, in particular, ensures that
Ctrl-Break signals will be sent to all children of this process as well
to the process itself. Support for this flag under MSW was added in
version 2.9.4 of wxWidgets.
*/
wxEXEC_MAKE_GROUP_LEADER = 4,
/**
Don't disable the program UI while running the child synchronously.
By default synchronous execution disables all program windows to avoid
that the user interacts with the program while the child process is
running, you can use this flag to prevent this from happening.
This flag can only be used with ::wxEXEC_SYNC.
*/
wxEXEC_NODISABLE = 8,
/**
Don't dispatch events while the child process is executed.
By default, the event loop is run while waiting for synchronous
execution to complete and this flag can be used to simply block the
main process until the child process finishes
This flag can only be used with ::wxEXEC_SYNC.
*/
wxEXEC_NOEVENTS = 16,
/**
Hide child process console under MSW.
Under MSW, hide the console of the child process if it has one,
even if its IO is not redirected.
This flag is ignored under the other platforms.
@since 2.9.3
*/
wxEXEC_HIDE_CONSOLE = 32,
/**
Convenient synonym for flags given system()-like behaviour.
*/
wxEXEC_BLOCK = wxEXEC_SYNC | wxEXEC_NOEVENTS
};
/**
Executes another program in Unix or Windows.
In the overloaded versions of this function, if @a flags parameter contains
@c wxEXEC_ASYNC flag (the default), flow of control immediately returns. If
it contains @c wxEXEC_SYNC, the current application waits until the other
program has terminated.
In the case of synchronous execution, the return value is the exit code of
the process (which terminates by the moment the function returns) and will
be -1 if the process couldn't be started and typically 0 if the process
terminated successfully. Also, while waiting for the process to terminate,
wxExecute() will call wxYield(). Because of this, by default this function
disables all application windows to avoid unexpected reentrancies which
could result from the users interaction with the program while the child
process is running. If you are sure that it is safe to not disable the
program windows, you may pass @c wxEXEC_NODISABLE flag to prevent this
automatic disabling from happening.
For asynchronous execution, however, the return value is the process id and
zero value indicates that the command could not be executed. As an added
complication, the return value of -1 in this case indicates that we didn't
launch a new process, but connected to the running one (this can only
happen when using DDE under Windows for command execution). In particular,
in this case only, the calling code will not get the notification about
process termination.
If @a callback isn't @NULL and if execution is asynchronous,
wxProcess::OnTerminate() will be called when the process finishes.
Specifying this parameter also allows you to redirect the standard input
and/or output of the process being launched by calling
wxProcess::Redirect().
Under Windows, when launching a console process its console is shown by
default but hidden if its IO is redirected. Both of these default
behaviours may be overridden: if ::wxEXEC_HIDE_CONSOLE is specified, the
console will never be shown. If ::wxEXEC_SHOW_CONSOLE is used, the console
will be shown even if the child process IO is redirected. Neither of these
flags affect non-console Windows applications or does anything under the
other systems.
Under Unix the flag @c wxEXEC_MAKE_GROUP_LEADER may be used to ensure that
the new process is a group leader (this will create a new session if
needed). Calling wxKill() passing wxKILL_CHILDREN will kill this process as
well as all of its children (except those which have started their own
session). Under MSW, this flag can be used with console processes only and
corresponds to the native @c CREATE_NEW_PROCESS_GROUP flag.
The @c wxEXEC_NOEVENTS flag prevents processing of any events from taking
place while the child process is running. It should be only used for very
short-lived processes as otherwise the application windows risk becoming
unresponsive from the users point of view. As this flag only makes sense
with @c wxEXEC_SYNC, @c wxEXEC_BLOCK equal to the sum of both of these
flags is provided as a convenience.
@note Currently wxExecute() can only be used from the main thread, calling
this function from another thread will result in an assert failure in
debug build and won't work.
@param command
The command to execute and any parameters to pass to it as a single
string, i.e. "emacs file.txt".
@param flags
Must include either wxEXEC_ASYNC or wxEXEC_SYNC and can also include
wxEXEC_SHOW_CONSOLE, wxEXEC_HIDE_CONSOLE, wxEXEC_MAKE_GROUP_LEADER (in
either case) or wxEXEC_NODISABLE and wxEXEC_NOEVENTS or wxEXEC_BLOCK,
which is equal to their combination, in wxEXEC_SYNC case.
@param callback
An optional pointer to wxProcess.
@param env
An optional pointer to additional parameters for the child process,
such as its initial working directory and environment variables. This
parameter is available in wxWidgets 2.9.2 and later only.
@see wxShell(), wxProcess, @ref page_samples_exec,
wxLaunchDefaultApplication(), wxLaunchDefaultBrowser()
@header{wx/utils.h}
@beginWxPerlOnly
In wxPerl this function is called @c Wx::ExecuteCommand.
@endWxPerlOnly
*/
long wxExecute(const wxString& command, int flags = wxEXEC_ASYNC,
wxProcess* callback = NULL,
const wxExecuteEnv* env = NULL);
//@}
/** @addtogroup group_funcmacro_procctrl */
//@{
/**
This is an overloaded version of wxExecute(const wxString&,int,wxProcess*),
please see its documentation for general information.
This version takes an array of values: a command, any number of arguments,
terminated by @NULL.
@param argv
The command to execute should be the first element of this array, any
additional ones are the command parameters and the array must be
terminated with a @NULL pointer.
@param flags
Same as for wxExecute(const wxString&,int,wxProcess*) overload.
@param callback
An optional pointer to wxProcess.
@param env
An optional pointer to additional parameters for the child process,
such as its initial working directory and environment variables. This
parameter is available in wxWidgets 2.9.2 and later only.
@see wxShell(), wxProcess, @ref page_samples_exec,
wxLaunchDefaultApplication(), wxLaunchDefaultBrowser()
@header{wx/utils.h}
@beginWxPerlOnly
In wxPerl this function is called @c Wx::ExecuteArgs.
@endWxPerlOnly
*/
long wxExecute(const char* const* argv, int flags = wxEXEC_ASYNC,
wxProcess* callback = NULL,
const wxExecuteEnv *env = NULL);
long wxExecute(const wchar_t* const* argv, int flags = wxEXEC_ASYNC,
wxProcess* callback = NULL,
const wxExecuteEnv *env = NULL);
//@}
/** @addtogroup group_funcmacro_procctrl */
//@{
/**
This is an overloaded version of wxExecute(const wxString&,int,wxProcess*),
please see its documentation for general information.
This version can be used to execute a process (always synchronously, the
contents of @a flags is or'd with @c wxEXEC_SYNC) and capture its output in
the array @e output.
@param command
The command to execute and any parameters to pass to it as a single
string.
@param output
The string array where the stdout of the executed process is saved.
@param flags
Combination of flags to which ::wxEXEC_SYNC is always implicitly added.
@param env
An optional pointer to additional parameters for the child process,
such as its initial working directory and environment variables. This
parameter is available in wxWidgets 2.9.2 and later only.
@see wxShell(), wxProcess, @ref page_samples_exec,
wxLaunchDefaultApplication(), wxLaunchDefaultBrowser()
@header{wx/utils.h}
@beginWxPerlOnly
This function is called @c Wx::ExecuteStdout: it only takes the
@a command argument, and returns a 2-element list (@c status, @c output),
where @c output in an array reference.
@endWxPerlOnly
*/
long wxExecute(const wxString& command, wxArrayString& output, int flags = 0,
const wxExecuteEnv *env = NULL);
/**
This is an overloaded version of wxExecute(const wxString&,int,wxProcess*),
please see its documentation for general information.
This version adds the possibility to additionally capture the messages from
standard error output in the @a errors array. As with the above overload
capturing standard output only, execution is always synchronous.
@param command
The command to execute and any parameters to pass to it as a single
string.
@param output
The string array where the stdout of the executed process is saved.
@param errors
The string array where the stderr of the executed process is saved.
@param flags
Combination of flags to which ::wxEXEC_SYNC is always implicitly added.
@param env
An optional pointer to additional parameters for the child process,
such as its initial working directory and environment variables. This
parameter is available in wxWidgets 2.9.2 and later only.
@see wxShell(), wxProcess, @ref page_samples_exec,
wxLaunchDefaultApplication(), wxLaunchDefaultBrowser()
@header{wx/utils.h}
@beginWxPerlOnly
This function is called @c Wx::ExecuteStdoutStderr: it only takes the
@a command argument, and returns a 3-element list (@c status, @c output,
@c errors), where @c output and @c errors are array references.
@endWxPerlOnly
*/
long wxExecute(const wxString& command, wxArrayString& output,
wxArrayString& errors, int flags = 0,
const wxExecuteEnv *env = NULL);
/**
Returns the number uniquely identifying the current process in the system.
If an error occurs, 0 is returned.
@header{wx/utils.h}
*/
unsigned long wxGetProcessId();
/**
Equivalent to the Unix kill function: send the given signal @a sig to the
process with PID @a pid.
The valid signal values are:
@code
enum wxSignal
{
wxSIGNONE = 0, // verify if the process exists under Unix
wxSIGHUP,
wxSIGINT,
wxSIGQUIT,
wxSIGILL,
wxSIGTRAP,
wxSIGABRT,
wxSIGEMT,
wxSIGFPE,
wxSIGKILL, // forcefully kill, dangerous!
wxSIGBUS,
wxSIGSEGV,
wxSIGSYS,
wxSIGPIPE,
wxSIGALRM,
wxSIGTERM // terminate the process gently
};
@endcode
@c wxSIGNONE, @c wxSIGKILL and @c wxSIGTERM have the same meaning under
both Unix and Windows but all the other signals are equivalent to
@c wxSIGTERM under Windows. Moreover, under Windows, @c wxSIGTERM is
implemented by posting a message to the application window, so it only
works if the application does have windows. If it doesn't, as is notably
always the case for the console applications, you need to use @c wxSIGKILL
to actually kill the process. Of course, this doesn't allow the process to
shut down gracefully and so should be avoided if possible.
Returns 0 on success, -1 on failure. If the @a rc parameter is not @NULL,
it will be filled with a value from the @c wxKillError enum:
@code
enum wxKillError
{
wxKILL_OK, // no error
wxKILL_BAD_SIGNAL, // no such signal
wxKILL_ACCESS_DENIED, // permission denied
wxKILL_NO_PROCESS, // no such process
wxKILL_ERROR // another, unspecified error
};
@endcode
The @a flags parameter can be wxKILL_NOCHILDREN (the default), or
wxKILL_CHILDREN, in which case the child processes of this process will be
killed too. Note that under Unix, for wxKILL_CHILDREN to work you should
have created the process by passing wxEXEC_MAKE_GROUP_LEADER to
wxExecute().
@see wxProcess::Kill(), wxProcess::Exists(), @ref page_samples_exec
@header{wx/utils.h}
*/
int wxKill(long pid, wxSignal sig = wxSIGTERM,
wxKillError* rc = NULL, int flags = wxKILL_NOCHILDREN);
/**
Executes a command in an interactive shell window. If no command is
specified, then just the shell is spawned.
@see wxExecute(), @ref page_samples_exec
@header{wx/utils.h}
*/
bool wxShell(const wxString& command = wxEmptyString);
/**
This function shuts down or reboots the computer depending on the value of
the @a flags.
@note Note that performing the shutdown requires the corresponding access
rights (superuser under Unix, SE_SHUTDOWN privilege under Windows)
and that this function is only implemented under Unix and MSW.
@param flags
One of @c wxSHUTDOWN_POWEROFF, @c wxSHUTDOWN_REBOOT or
@c wxSHUTDOWN_LOGOFF (currently implemented only for MSW) possibly
combined with @c wxSHUTDOWN_FORCE which forces shutdown under MSW by
forcefully terminating all the applications. As doing this can result
in a data loss, this flag shouldn't be used unless really necessary.
@return @true on success, @false if an error occurred.
@header{wx/utils.h}
*/
bool wxShutdown(int flags = wxSHUTDOWN_POWEROFF);
//@}
/** @addtogroup group_funcmacro_time */
//@{
/**
Sleeps for the specified number of microseconds. The microsecond resolution
may not, in fact, be available on all platforms (currently only Unix
platforms with nanosleep(2) may provide it) in which case this is the same
as calling wxMilliSleep() with the argument of @e microseconds/1000.
@header{wx/utils.h}
*/
void wxMicroSleep(unsigned long microseconds);
/**
Sleeps for the specified number of milliseconds. Notice that usage of this
function is encouraged instead of calling usleep(3) directly because the
standard @e usleep() function is not MT safe.
@header{wx/utils.h}
*/
void wxMilliSleep(unsigned long milliseconds);
/**
Returns a string representing the current date and time.
@header{wx/utils.h}
*/
wxString wxNow();
/**
Sleeps for the specified number of seconds.
@header{wx/utils.h}
*/
void wxSleep(int secs);
/**
@deprecated This function is deprecated because its name is misleading:
notice that the argument is in milliseconds, not microseconds.
Please use either wxMilliSleep() or wxMicroSleep() depending on
the resolution you need.
Sleeps for the specified number of milliseconds.
@header{wx/utils.h}
*/
void wxUsleep(unsigned long milliseconds);
//@}
/** @addtogroup group_funcmacro_misc */
//@{
/**
Convert decimal integer to 2-character hexadecimal string.
@param dec
A number to be converted.
@param buf
A pointer to the buffer that receives hexadecimal string (not prefixed
by @c 0x). This buffer should be large enough to hold at least
3 characters: 2 hexadecimal digits and the terminating null character.
@remarks
Returned string is composed of uppercase hexdecimal characters.
@header{wx/utils.h}
*/
void wxDecToHex(unsigned char dec, wxChar *buf);
/**
Convert decimal integer to 2-character hexadecimal string.
@param dec
A number to be converted.
@return
String containing hexadecimal string, not prefixed by @c 0x,
composed of uppercase characters.
@header{wx/utils.h}
*/
wxString wxDecToHex(unsigned char dec);
/**
Returns 2 characters of hexadecimal representation of a given number.
@param dec
A number to be converted.
@param ch1
Pointer to the variable that receives 1st hexadecimal character.
It must not be @NULL.
@param ch2
Pointer to the variable that receives 2nd hexadecimal character.
It must not be @NULL.
@remarks
Returned characters are uppercase.
@header{wx/utils.h}
*/
void wxDecToHex(unsigned char dec, char* ch1, char* ch2);
/**
Convert 2-character hexadecimal string to decimal integer.
@param buf
String containing uppercase hexadecimal characters, not prefixed
by @c 0x. Its length must be at least 2 characters. If it is longer
than 2 characters, only first two will be converted to the number.
@return
An integer number between 0 and 255 that is equivalent to the number
in @a buf, or @c -1 if @a buf is not a hexadecimal string.
@header{wx/utils.h}
*/
int wxHexToDec(const wxString& buf);
/**
@overload
*/
int wxHexToDec(const char* buf);
//@}