The Input Server Table of Contents     The Input Server Index

Input Server Messages

This section describes the messages that your Input Server objects are expected to create and send, and that they're expected to respond to.


Input Device Event Messages

Declared in: be/app/AppDefs.h

This section lists the event messages that a BInputServerDevice is expected to create and send through its EnqueueMessage() function. The primary documentation for these messages is in the System Messages appendix (click on an item in the lists below to be taken to a specific definition).


Pointing Device Event Messages

B_MOUSE_DOWN
B_MOUSE_UP
B_MOUSE_MOVED

Note that a pointing device isn't expected to send the B_MOUSE_ENTER_EXIT message.


Keyboard Device Event Messages

B_KEY_DOWN
B_UNMAPPED_KEY_DOWN
B_KEY_UP
B_UMAPPED_KEY_UP
B_MODIFIERS_CHANGED


Input Device Control Messages

Declared in: be/add-ons/input_server/InputServerDevice.h

This section lists the control messages that are defined by the BeOS for pointing and keyboard devices. These are messages that appear in the BInputServerDevice::Control() function. Each control message is identified by the value that appears as the command argument in the Control() function. None of the Be-defined control messages use the additional BMessage argument.

Control messages are used to notify input devices of downstream requests. For example, when the user changes the mouse speed, a B_MOUSE_SPEED_CHANGED command is sent back upstream. It's expected that an input device that receives this message will tune subsequent event messages that it generates to match the requested mouse speed.

The messages listed below are defined by the BeOS; you can send custom control messages back upstream through the BInput::Control() function. Of course, this is only effective if you install a custom input device that can handle the messages.

Note that the Be-defined control messages ask a device to set parameters (such as mouse speed), but they never ask a device for the value of a parameter. For example, a pointing device is never asked what the mouse speed is. This is because the Input Server maintains the state of the keyboard and pointing device environments and can answer these requests itself.

Furthermore, the Be-defined control messages don't contain the value of the parameter that's being set. For example, the B_MOUSE_SPEED_CHANGED message doesn't contain the requested mouse speed. The input device must ask the Input Server for the new value through a global function (get_mouse_speed(), in this case). The functions that correspond to the messages are listed in the descriptions below.


Pointing Device Control Messages


B_CLICK_SPEED_CHANGED

Requests that the receiver change the mouse double-click speed to the value retrieved through get_click_speed().


B_MOUSE_MAP_CHANGED

Requests that the receiver change the mouse map (the correspondence between physical mouse buttons and the B_PRIMARY_MOUSE_BUTTON, et. al., constants) to the map retrieved through get_mouse_map().


B_MOUSE_SPEED_CHANGED

Requests that the receiver change the mouse speed to the value retrieved through get_mouse_speed().


B_MOUSE_TYPE_CHANGED

Requests that the receiver change the mouse type (the number of buttons) to the type retrieved through get_mouse_type().


Keyboard Device Control Messages


B_KEY_LOCKS_CHANGED

Requests that the receiver change the state of the locked keys (caps lock, num lock, etc.). To get the desired state of the locking keys, read the states out of the key map returned by get_key_map().


B_KEY_MAP_CHANGED

Requests that the receiver change the keyboard's key map—the mapping between physical keys and the character codes they generate. The new key map is returned by get_key_map().


B_KEY_REPEAT_DELAY_CHANGED

Requests that the receiver change the delay before a held key starts generating repeated characters to the value retrieved through get_key_repeat_delay().


B_KEY_REPEAT_RATE_CHANGED

Requests that the receiver change the speed at which a held key generates repeated characters to the value retrieved through get_key_repeat_rate().


Device Monitoring

The watch_input_devices() function lets you ask the Input Server to send you a message when a device starts or stops, or when the set of registered devices changes. These "device monitoring" notifications are sent to the target specified in the function. The command constant is always B_INPUT_DEVICES_CHANGED. The be:opcode field will be one of:


B_INPUT_DEVICE_ADDED

An input device has been added to the system.


B_INPUT_DEVICE_REMOVED

An input device has been removed from the system.


B_INPUT_DEVICE_STARTED

An input device has been started.


B_INPUT_DEVICE_STOPPED

An input device has been stopped.


Input Method Events

Active input methods send input method events (B_INPUT_METHOD_EVENT messages) downstream to application views to help integrate the method>s work with the view>s display. Inside each B_INPUT_METHOD_EVENT message is a be:opcode field indicating the type of input method event:


B_INPUT_METHOD_CHANGED

Sent whenever the user changes the text during an input transaction.


B_INPUT_METHOD_LOCATION_REQUEST

Sent whenever the input method needs to know the on-screen locations of characters in the input transaction.


B_INPUT_METHOD_STARTED

Sent when a new input transaction is beginning.


B_INPUT_METHOD_STOPPED

Sent when an input transaction is completed.


The Input Server Table of Contents     The Input Server Index


The Be Book,
...in lovely HTML...
for BeOS Release 5.

Copyright © 2000 Be, Inc. All rights reserved..