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FVWM - Module Interface


Table Of Contents

Important Changes Since fvwm-1.xx [top]

The module interface remained fairly stable when going from fvwm-1.xx to fvwm-2.xx. The change most likely to affect modules is the addition of an extra value to the header. This value is a timestamp. Most modules contained the line:

unsigned long header[3];
This must be changed to:
unsigned long header[HEADER_SIZE];

The rest of the changes are handled in the library function ReadFvwmPacket.

Another notable change is that modules do not have to read the .fvwmrc file themselves. They can request the appropriate lines from fvwm:

static void ParseOptions()
{
  char *buf;
  while (GetConfigLine(Channel,&buf), buf != NULL)
  {
    ParseConfigLine(buf);
  } /* end config lines */
} /* end function */

This is the preferred method of getting module-specific configuration lines.

Starting in fvwm-2.0 pl 1, fvwm2 (now fvwm) passes command line arguments to the modules, so if the user said ``FvwmPager 2 4'', the module will see argv[6] = 2 and argv[7] = 4, instead of argv[6] = ``2 4''.

Some new packet types are defined, and a few values were added to some packet types.

Starting in fvwm-2.5.2, Perl library is provided that enables writing FVWM modules in Perl.

Concept [top]

The module interface has several design goals:

Security [top]

Limited effort has been placed on security issues. In short, modules can not communicate with fvwm unless they are launched by fvwm, which means that they must be listed in the user's .fvwmrc file. Modules can only issue commands to fvwm that could be issued from a menu or key binding. These measures do not keep a poorly written module from destroying windows or terminating an X session, but they do keep users from maliciously connecting to another users window manager, and it should keep modules from corrupting the fvwm internal databases.

Initialization [top]

Modules MUST be launched by fvwm that will first open a pair of pipes for communication with the module. One pipe is for messages to fvwm from the module, and the other is for messages to the module from fvwm. Each module has its own pair of pipes. After the pipes are open, fvwm will fork and exec the module. Modules not specified with an absolute path must be located in the ModulePath, as specified in the user's .fvwm2rc file. Modules can be initiated as fvwm starts up, or can be launched part way through an X session.

Module Arguments [top]

Args 0

Like any UNIX program, arg 0 is the full pathname of the module. Most modules acquire this for use in error message, parsing their own configuration commands, some other possible uses. Arg 0 is related to the optional arg 6 described under "Module Aliases".

Args 1 and 2

The pipes are open when the module starts execution. The integer file descriptors are passed to the module as the first and second command line arguments.

Arg 3

The third command line argument is a character pointer pointing to the full path name of the configuration file from which the module was started. If the module was not started from any configuration file (for example, it is started from StartFunction), this arg points to a string containing "none". This argument is mostly for backward compatibility with old modules.

Arg 4

The next command line argument is the application window in whose context the module was launched. This is 0 if the module is launched without an application window context.

Arg 5

The next argument is the context of the window decoration in which the module was launched. Contexts are listed below:

#define C_NO_CONTEXT     0 - launched during initialization
#define C_WINDOW         1 - launched from an application window
#define C_TITLE          2 - launched from a title bar
#define C_ICON           4 - launched from an icon window
#define C_ROOT           8 - launched from the root window
#define C_FRAME         16 - launched from a corner piece
#define C_SIDEBAR       32 - launched from a side-bar
#define C_L1            64 - launched from left button #1
#define C_L2           128 - launched from left button #2
#define C_L3           256 - launched from left button #3
#define C_L4           512 - launched from left button #4
#define C_L5          1024 - launched from left button #5
#define C_R1          2048 - launched from right button #1
#define C_R2          4096 - launched from right button #2
#define C_R3          8192 - launched from right button #3
#define C_R4         16384 - launched from right button #4
#define C_R5         32768 - launched from right button #5

Note that no more than one bit will ever be set so a case statement may be used with the values above.

Arg 6 and above

A number of user specified command line arguments may be present (optional). Any number of arguments may be passed. For example, in:

Module  "FvwmIdent" Hello rob! ``-fg purple''

we would get argv[6] = ``Hello'', argv[7] = ``rob!'', argv[8] = ``-fg purple''.

Module Aliases [top]

In the original fvwm, if you wanted to run 2 copies of a module, you were advised to copy or soft-link the module executable to another name. For example, you might have had to copies of FvwmButtons running. Some of the modules now accept arg 6 as an Alias of the module name.

This alias is used in module generated messages, in recognizing configuration commands, and possibly other uses. FvwmAnimate makes full use of this and might provide a good model to follow.

Acquiring the read/write pipes [top]

The following mechanism is recommended to acquire the pipe descriptors:

int fd[2];
void main(int argc, char **argv) {
  if((argc < 6)) {
    fprintf(stderr,
      "%s: Should only be executed by fvwm!\n", argv[0]);
    exit(1);
  }
  fd[0] = atoi(argv[1]);
  fd[1] = atoi(argv[2]);

The descriptor fd[0] is available for the module to send messages to fvwm, while the descriptor fd[1] is available to read messages from fvwm. Since "int fd[2]" is an array, you will often see modules send commands to fvwm with the construct "SendText(fd,"Command",0);". Of course, they really mean "SendText(&fd[0],"Command",0);".

Pipe Status [top]

Special attention is paid to the status of the pipe. If fvwm gets a read error on a module-to-fvwm pipe, then it assumes that the module is terminating, and all communication with the module is terminated. Similarly, if a module gets a read error on an fvwm-to-module pipe, then it should assume that fvwm is terminating, and it should gracefully shut down. All modules should also allow themselves to be shut down via the Delete Window protocol for X11.

Reading initial configuration information [top]

In previous implementations, the modules were expected to read and parse the .fvwmrc file by themselves. This caused some difficulty if a pre-processor was used on the .fvwmrc file. In fvwm-2.0 and later, fvwm retains the module command lines (those which start with a ``*''), and passes them to any module on request. Modules can request the command list by sending a ``Send_ConfigInfo'' command to fvwm. Modules can request configuration commands to be sent whenever fvwm reads one, even after the module has started up, see M_SENDCONFIG in module-to-fvwm Communication.

Colorset support [top]

When a module requests configuration information the configuration commands sent are preceded by some global configuration lines and a list of colorsets. In order to use colorsets a module must do the following:

Transparency [top]

Fvwm and modules can implement a limited form of transparency. It does not allow the contents of one window to show through another but instead copies the parent window background into the window. X11 makes it impossible to examine the background color or pixmap of any window so there is no facility to tint or shade the root window background. Transpency is only supported in colorsets and it won't work if you start fvwm with the -visual option.

In order to support transparency a module must do the following:

The user must also arrange for the window manager frame to support transparency with the ``Style module_name ParentalRelativity'' command. This is not the default style as it results in the root window background being drawn in windows in some circumstances (which are OK for transparent windows).

I humbly apologize for ParentalRelativity, it's the only thing I could think of that wouldn't imply something else. Count yourself lucky that the opposite setting is Opacity and not Obscurity or ParentalIndifference

Module Writing [top]

Before you write a module, you will want to look at a few different fvwm modules. The techniques used have evolved over time, and no one module contains all the best techniques. Some of them may be on this page, but undoubtedly some of them are buried in the source code.

Module communications protocol [top]

Modules communicate with fvwm via a simple protocol. In essence, a textual command line, similar to a command line which could be bound to a mouse, or key-stroke in the .fvwm2rc, is transmitted to fvwm.

First the module should send the ID of the window which should be manipulated. A window ID of ``None'' may be used, in which case fvwm will prompt the user to select a window if needed. Next the length of the the command line is sent as an integer. After that the command line itself is sent. Finally, an integer 1 is sent if the module plans to continue operating, or 0 if the module is finished. The following subroutine is provided as an example of a suitable method of sending messages to fvwm:

void SendText(int *fd, char *message, unsigned long window)
{
  int w;
  if (message != NULL)
  {
      write(fd[0], &win, sizeof(Window));
      w=strlen(message);                  /* calc the length of the message */
      write(fd[0], &w, sizeof(int));  /* send the message length */
      write(fd[0], message, w);           /* send the message itself */
      /* send 1, indicating that this module will keep going */
      /* 0 would mean that this module is done */
      w = 1;
      write(fd[0], &w, sizeof(int));
  }
}

This routine is available as a library function in libfvwm. For compatibility with older code, there is a macro "SendInfo" which can be used instead of the function name SendText.

Module information requests [top]

There are special built-in functions, Send_WindowList, Send_ConfigInfo and Send_Reply. Send_WindowList causes fvwm to transmit everything that it is currently thinking about to the module which requests the information. This information contains the paging status (enabled/disabled), current desktop number, position on the desktop, current focus and, for each window, the window configuration, window, icon, and class names, and, if the window is iconified, the icon location and size. For example, some modules during start up want to know the state of all current windows. The would ask fvwm for this information like this:

SendText(Channel,"Send_WindowList",0);

Send_ConfigInfo causes fvwm to send the module a list of all some or all commands it has received which start with a ``*'', as well as the some global settings that fvwm is currently using. This is implemented in fvwm/modconf.c. Note that "Send_ConfigInfo" is sort of a memory dump type request, and the number of commands a module might get from this request may change over time. The module should be prepared to ignore commands it is not interested in without generating a warning or error. This request is normally made during module startup for a module to read its current configuration and some general information. Fvwm provides some subroutines to make this process fairly painless. Here is an example from FvwmAnimate.c:

static void ParseOptions()
{
  char *buf;
  InitGetConfigInfo(Channel, MyName);  /* char *MyName = "*FvwmAnimate" */
  while (GetConfigLine(Channel, &buf), buf != NULL)
  {
    ParseConfigLine(buf);
  }
}

The call to "InitGetConfigInfo" is optional. If a module wants all the module commands (commands starting with ``*''), there is no need to use this command. Most modules only want module commands for the module itself. As shown in the example above, the second argument includes the leading asterisk. The match is case insensitive.

InitGetConfigInfo improves performance. Since the command matching is done in fvwm, time is saved in both fvwm and the module. Remember that the module still has to name match if it wants to find its own configuration lines since other kinds of commands are sent along with module configuration lines.

Send_Reply causes fvwm to send back a string to the sending module. This may be used to accnowledge that fvwm has reached a certain point in the message queue, or to get some information from fvwm variable expansion.

Controlling information sent to modules [top]

Fvwm lets each module control exactly what information is passed to the module. A module can send the command Set_Mask, followed by a number which is the bitwise OR of the packet-types the module wishes to receive. If the module never sends the Set_Mask command, then all message types in the default mask are sent. The default mask is defined in fvwm_module_interface.h as "MAX_MASK" and "DEFAULT_XMSG_MASK". This currently (January 2002) includes all messages except M_SENDCONFIG and all of the MX_... messages. A library function, SetMessageMask, makes it easy to set this mask. Since 2.5.0 was released, the highest bit in the message mask marks extended messages that were introduced to allow more than 32 message types. The type of a message received by a module can be compared against one of the macros in libs/Module.h as usual, but when passing a mask to the SetMessageMask, SetSyncMask or SetNoGrabMask functions, the normal and extended masks must be set in separate calls. Here is an example from FvwmGtk.c:

SetMessageMask(fvwm_fd, M_STRING | M_CONFIG_INFO | M_SENDCONFIG | ...);
SetMessageMask(fvwm_fd, MX_VISIBLE_ICON_NAME);

This mask is used to reduce the amount of communication between fvwm and its modules so that a module only gets the messages it needs.

Dynamic reconfiguration [top]

Fvwm can change configuration whilst running and modules can also share this ability. The while (GetConfigLine()) loop gets the current configuration but other module config lines may be added at any time from a variety of sources. If a module wants to be notified of any configuration changes it must set the M_SENDCONFIG bit in the event mask

Synchronous vs. Asynchronous Operation [top]

A module normally runs asynchrously with fvwm. For example FvwmPager may be updating its display to show a window being iconified while fvwm may have already iconfied and de-iconified the window. This is usually desirable. Other modules might need to synchronize (a part of) their processing with fvwm. If this is the case, the module must nform fvwm which packet-types it wishes to be processed synchronously. There is a mask for this propose. A library function, SetSyncMask, allows this mask to be set. Here is an example from FvwmAnimate.c:

SetSyncMask(Channel,M_ICONIFY|M_DEICONIFY|M_STRING);

When this mask is set, every message in the mask sent to the module from fvwm must be answered with an "UNLOCK" message. FvwmAnimate is the first module to implement this and should be used as a reference implementation. Note that FvwmAnimate sends the command "UNLOCK 1". The "1" is currently ignored but may be used in the future. This facility comes from Afterstep, and we are just tracking what they have done. The Afterstep documentation doesn't seem to say, but most likely this is the time in seconds that fvwm should wait for the module to respond with "UNLOCK" before it proceeds without the module's response.

When communication takes place [top]

Fvwm can send messages to the modules in either a broadcast mode, or a module specific mode. Certain messages regarding important window or desktop manipulations are broadcast to all modules, whether they want it or not. Modules are able to request information about current windows from fvwm, via the Send_WindowList built-in. When invoked this way, only the requesting module receives the data.

Communication packet format [top]

Packets from fvwm to modules conform to a standard format, so modules which are not interested in broadcast messages can easily ignore them. A header consisting of 4 unsigned long integers, followed by a body of a variable length make up a packet. The header always begins with 0xffffffff. This is provided to help modules re-synchronize to the data stream if necessary. The next entry describes the packet type. Existing packet types are listed in the file libs/Module.h (see table below). Additional packet types will be defined in the future. The third entry in the header tells the total length of the packet, in unsigned longs, including the header. The fourth entry is the last time stamp received from the X server, which is expressed in milliseconds.

The body information is packet specific, as described below.

#define M_NEW_PAGE             (1 << 0)
#define M_NEW_DESK             (1 << 1)
#define M_OLD_ADD_WINDOW       (1 << 2)
#define M_RAISE_WINDOW         (1 << 3)
#define M_LOWER_WINDOW         (1 << 4)
#define M_OLD_CONFIGURE_WINDOW (1 << 5)
#define M_FOCUS_CHANGE         (1 << 6)
#define M_DESTROY_WINDOW       (1 << 7)
#define M_ICONIFY              (1 << 8)
#define M_DEICONIFY            (1 << 9)
#define M_WINDOW_NAME          (1 << 10)
#define M_ICON_NAME            (1 << 11)
#define M_RES_CLASS            (1 << 12)
#define M_RES_NAME             (1 << 13)
#define M_END_WINDOWLIST       (1 << 14)
#define M_ICON_LOCATION        (1 << 15)
#define M_MAP                  (1 << 16)
#define M_ERROR                (1 << 17)
#define M_CONFIG_INFO          (1 << 18)
#define M_END_CONFIG_INFO      (1 << 19)
#define M_ICON_FILE            (1 << 20)
#define M_DEFAULTICON          (1 << 21)
#define M_STRING               (1 << 22)
#define M_MINI_ICON            (1 << 23)
#define M_WINDOWSHADE          (1 << 24)
#define M_DEWINDOWSHADE        (1 << 25)
#define M_VISIBLE_NAME         (1 << 26)
#define M_SENDCONFIG           (1 << 27)
#define M_RESTACK              (1 << 28)
#define M_ADD_WINDOW           (1 << 29)
#define M_CONFIGURE_WINDOW     (1 << 30)
#define M_EXTENDED_MSG         (1 << 31)
#define MX_VISIBLE_ICON_NAME   (1 << 0 + M_EXTENDED_MSG)
#define MX_ENTER_WINDOW        (1 << 1 + M_EXTENDED_MSG)
#define MX_LEAVE_WINDOW        (1 << 2 + M_EXTENDED_MSG)
#define MX_PROPERTY_CHANGE     (1 << 3 + M_EXTENDED_MSG)
#define MX_REPLY               (1 << 4 + M_EXTENDED_MSG)

M_NEW_PAGE [top]

These packets contain 5 integers. The first two are the x and y coordinates of the upper left corner of the current viewport on the virtual desktop. The third value is the number of the current desktop. The fourth and fifth values are the maximum allowed values of the coordinates of the upper-left hand corner of the viewport.

M_NEW_DESK [top]

The body of this packet consists of a single long integer, whose value is the number of the currently active desktop. This packet is transmitted whenever the desktop number is changed.

M_ADD_WINDOW, and M_CONFIGURE_WINDOW [top]

These packets contain 25 long values, 2 short values and 2 structures. The first value is the ID of the affected application's top level window, the next is the ID of the fvwm frame window, and the final value is the pointer to fvwm's internal database entry for that window. The pointer itself is of no use to a module, it is there for backward compatibilty with older modules. The next 24 identify the location and size, as described in the table below. Configure packets will be generated when the viewport on the current desktop changes, or when the size or location of the window is changed. The style flags field a structure, window_flags, defined in fvwm.h with access macros defined in window_flags.h. Not all flag changes trigger M_CONFIGURE_WINDOW message, which mean that they might be outdated. The action flags is a structure, action_flags, define in fvwm.h which controls what actions are possible to perform on the window from the module.

Important note: The individual fields of the packet must not be accessed directly with the 'body' member of the packet structure. The size of these fields may change in the future and has changed in the past, thus breaking any module relying on the exact position of the value in the packet. Instead, use the structures defined in libs/vpacket.h.

0 ID of the application's top level window
1 ID of the fvwm frame window
2 Pointer to the fvwm database entry (not useful)
3 X location of the window's frame
4 Y location of the window's frame
5 Width of the window's frame
6 Height of the window's frame
7 Desktop number
8 Layer number
9 Window Base Width
10 Window Base Height
11 Window Resize Width Increment
12 Window Resize Height Increment
13 Window Minimum Width
14 Window Minimum Height
13 Original Window Resize Width Increment (before fvwm messed with it)
14 Original Window Resize Height Increment (before fvwm messed with it)
15 Window Maximum Width
16 Window Maximum Height
17 Icon Label Window ID, or 0
18 Icon Pixmap Window ID, or 0
19 Window Gravity
20 Pixel value of the text color
21 Pixel value of the window border color
22 EWMH layer
23 EWMH desktop
24 EWMH window type
25 Window Title Height
Window Border Width
padding
padding
Style flags
Action flags

M_LOWER_WINDOW, M_RAISE_WINDOW, and M_DESTROY_WINDOW [top]

These packets contain just the first three values of M_ADD_WINDOW.

M_FOCUS_CHANGE [top]

These packets contain 5 values, all of the same size as an unsigned long. The first value is the ID of the affected application's (the application which now has the input focus) top level window, the next is the ID of the fvwm frame window, and the third value is set to 0 when the focus change is from the Focus command and 1 for all other focus changes (FlipFocus, focusing with the mouse etc.). The third value can be used by the module to manage the windowlist in the same way as fvwm i.e. 0 means rotate the list around to the target, 1 means pluck the target from the list and insert at the beginning. The fourth and fifth values are the text focus color's pixel value and the window border's focus color's pixel value. In the event that the window which now has the focus is not a window which fvwm recognizes, only the ID of the affected application's top level window is passed. Zeros are passed for the other values.

0 ID of the application's top level window
1 ID of the fvwm frame window
2 Focus change type
3 Hilight text color
4 Hilight background color

M_ICON_LOCATION [top]

These packets contain 7 values. The first 3 are the same as M_ADD_WINDOW, and the next four describe the location and size of the icon, as described in the table. An M_ICON_LOCATION packet will be sent when an icon is created or moved and when the icon window is changed via the XA_WM_HINTS in a property notify event.

0 ID of the application's top level window
1 ID of the fvwm frame window
2 Pointer to the fvwm database entry (not useful)
3 X location of the icon
4 Y location of the icon
5 Width of the icon
6 Height of the icon

M_ICONIFY [top]

These packets contain 7 or 11 values. The first 3 are the same as M_ADD_WINDOW, and the next 4 values describe the location and size of the icon. If 4 further items are sent they are the location and size of the window being iconified. Note that M_ICONIFY packets are also sent whenever a window is started in the iconic state.

In addition, if a window which has transients is iconified, then an M_ICONIFY packet is sent for each transient window, with the icon x and y fields set to -10000. This packet will be sent even if the transients were already iconified. Note that no icons are actually generated for the transients in this case.

If a window has the NoIcon style the width and height of the icon window are set to 0 and the location is meaningless.

0 ID of the application's top level window
1 ID of the fvwm frame window
2 Pointer to the fvwm database entry
3 X location of the icon
4 Y location of the icon
5 Width of the icon
6 Height of the icon
7 X location of the window's frame
8 Y location of the window's frame
9 Width of the window's frame
10 Height of the window's frame

M_DEICONIFY [top]

These packets contain up to 3, 7 or 11 values starting with the usual window identifiers. The packet is sent when a window is de-iconified. Like M_ICONIFY icon and window location and size are sent.

M_MAP [top]

These packets contain 3 values, which are the usual window identifiers. The packets are sent when a window is mapped, if it is not being deiconified. This is useful to determine when a window is finally mapped, after being added.

M_WINDOW_NAME, M_ICON_NAME, M_RES_CLASS and M_RES_NAME [top]

These packets contain 3 values, which are the usual window identifiers, followed by a variable length character string. The packet size field in the header is expressed in units of unsigned longs, and the packet is zero-padded until it is the size of an unsigned long. The RES_CLASS and RES_NAME fields are fields in the XClass structure for the window. Icon and Window name packets will be sent upon window creation or whenever the name is changed. The RES_CLASS and RES_NAME packets are sent on window creation. All packets are sent in response to a Send_WindowList request from a module.

MX_VISIBLE_NAME, MX_VISIBLE_ICON_NAME [top]

These packets are similar to the M_WINDOW_NAME and M_ICON_NAME packets (respectively). The difference is that they contain the window and icon title that fvwm displays (which may be differrent than the Window name and the Icon name if the IndexedWindowName and IndexedIconName fvwm styles are used).

M_END_WINDOWLIST [top]

These packets contain no values. This packet is sent to mark the end of transmission in response to a Send_WindowList request. A module which requests Send_WindowList, and processes all packets received between the request and the M_END_WINDOWLIST will have a snapshot of the status of the desktop.

M_ERROR [top]

When fvwm has an error message to report, it is echoed to the modules in a packet of this type. This packet has 3 values, all zero, followed by a variable length string which contains the error message.

M_CONFIG_INFO [top]

Fvwm records all configuration commands that it encounters which begins with the character ``*''. When the built-in command ``Send_ConfigInfo'' is invoked by a module, this entire list is transmitted to the module in packets (one line per packet) of this type. The packet consists of three zeros, followed by a variable length character string. In addition, the DeskTopSize, ImagePath, ColorLimit, Colorset and XineramaConfig definitions are sent to the module. The XineramaConfig string is followed by the primary screen number (counting from 1 upwards, 0 for the global screen or -1 if Xinerama is disabled).

Note that all the module configuration commands are sent. Each module has to check the configuration commands to see if it is a command for that specific module. This is actually a feature. This way one module can learn about all other modules configurations. Also fvwm doesn't currently know anything about module aliases (this is not correct anymore, the alias name is guessed from the command line).

Starting with release 2.0.47, a module can set M_SENDCONFIG on in its mask and receive M_CONFIG_INFO packets while it is running. (M_CONFIG_INFO has to be on also.) A module can use M_SENDCONFIG to be able to change configuration while it is running. Refer to module FvwmAnimate for an example.

M_END_CONFIG_INFO [top]

After fvwm sends all of its M_CONFIG_INFO packets to a module, it sends a packet of this type to indicate the end of the configuration information. This packet contains no values. This packet it not sent for subsequent config lines sent when the M_SENDCONFIG mask bit is on.

M_ICON_FILE [top]

This packet is broadcast when a window is added or during send window list. It is only sent for windows that have icons defined, and contains the usual 3 identifiers plus the filename of the icon.

M_DEFAULTICON [top]

This packet is sent during send window list. This is the icon associated with Style "*". The packet contains the filename of the icon.

M_STRING [top]

This packet is sent when a "SendToModule" command is processed. It contains the usual 3 window identifiers (of the current window) plus the actual string.

M_MINI_ICON [top]

This packet is broadcast when a window is added or during send window list. It is only sent for windows that have mini_icons defined, and contains the filename of the mini_icon. It contains the 3 window identifiers followed by the width and height of the mini_icon, the depth (which is useless, it is always the depth of the visual that fvwm is using), the window ID of the pixmap and mask, and finally a string that is the path to the file (also not useful).

M_WINDOWSHADE and M_DEWINDOWSHADE [top]

This packet is sent when a window is window shaded. It contains just the window identifiers.

M_SENDCONFIG [top]

This is a dummy packet that is never sent by fvwm and is described under module-to-fvwm communication.

M_RESTACK [top]

This packet is sent when the stacking order changes. It contains a list of windows, each one being given by its three identifiers. The meaning is that the first window keeps its position in the stacking order and all subsequent windows are restacked below it (like XRestackWindows).

MX_ENTER_WINDOW, MX_LEAVE_WINDOW [top]

These packets are sent when the pointer enters or leaves a window. It contains just the window identifiers. Note that multiple packets of the same type for the same window may be sent at any time.

MX_PROPERTY_CHANGE [top]

This packet is an all purpose message. It contains 3 values followed by a variable length character string. The first value is the type of the message, the others values depend on the message type. The message types are: MX_PROPERTY_CHANGE_BACKGROUND and MX_PROPERTY_CHANGE_SWALLOW.

MX_PROPERTY_CHANGE_BACKGROUND is sent by fvwm and FvwmButtons (and maybe other modules) to indicate a background change. If the 3rd value is 0, it means that the root background changed. (fvwm sends this message when it detects the change). If the 3rd value is not zero it is the window id of the module which should be concerned by the message. This indicates that the parent(s) window background of this module has changed. (FvwmButtons sends this message for the modules that it swallows, when its background colorset changes). The string and the second value are not used.

MX_PROPERTY_CHANGE_SWALLOW is sent by FvwmButtons (and maybe other modules) to indicate that the module with the window id given by the 3rd value has been swallowed or unswallowed. It is a swallowed message if the 2nd value is 1 and it is an unswallowed message if the 2nd value is 0. The string is not used.

There is a fvwm command which causes modules to send such message:

PropertyChange 1st_value 2nd_value 3rd_value "string"

MX_REPLY [top]

This packet is sent when a "Send_Reply" command is processed. It contains the usual 3 window identifiers (of the current window) plus the actual string.

Last modified on July 22, 2015