Trait evdev_rs::DeviceWrapper
source · [−]pub trait DeviceWrapper: Sized {
Show 44 methods
fn raw(&self) -> *mut libevdev;
fn enable<E: Enable>(&self, e: E) -> Result<()> { ... }
fn enable_property(&self, prop: &InputProp) -> Result<()> { ... }
fn enable_event_type(&self, ev_type: &EventType) -> Result<()> { ... }
fn enable_event_code(
&self,
ev_code: &EventCode,
data: Option<EnableCodeData>
) -> Result<()> { ... }
fn disable<E: Enable>(&self, d: E) -> Result<()> { ... }
fn disable_event_type(&self, ev_type: &EventType) -> Result<()> { ... }
fn disable_event_code(&self, code: &EventCode) -> Result<()> { ... }
fn has<E: Enable>(&self, e: E) -> bool { ... }
fn has_property(&self, prop: &InputProp) -> bool { ... }
fn has_event_type(&self, ev_type: &EventType) -> bool { ... }
fn has_event_code(&self, code: &EventCode) -> bool { ... }
fn name(&self) -> Option<&str> { ... }
fn phys(&self) -> Option<&str> { ... }
fn uniq(&self) -> Option<&str> { ... }
fn set_name(&self, field: &str) { ... }
fn set_phys(&self, field: &str) { ... }
fn set_uniq(&self, field: &str) { ... }
fn product_id(&self) -> u16 { ... }
fn vendor_id(&self) -> u16 { ... }
fn bustype(&self) -> u16 { ... }
fn version(&self) -> u16 { ... }
fn set_product_id(&self, field: u16) { ... }
fn set_vendor_id(&self, field: u16) { ... }
fn set_bustype(&self, field: u16) { ... }
fn set_version(&self, field: u16) { ... }
fn abs_info(&self, code: &EventCode) -> Option<AbsInfo> { ... }
fn set_abs_info(&self, code: &EventCode, absinfo: &AbsInfo) { ... }
fn event_value(&self, code: &EventCode) -> Option<i32> { ... }
fn set_event_value(&self, code: &EventCode, val: i32) -> Result<()> { ... }
fn abs_minimum(&self, code: u32) -> Result<i32> { ... }
fn abs_maximum(&self, code: u32) -> Result<i32> { ... }
fn abs_fuzz(&self, code: u32) -> Result<i32> { ... }
fn abs_flat(&self, code: u32) -> Result<i32> { ... }
fn abs_resolution(&self, code: u32) -> Result<i32> { ... }
fn set_abs_minimum(&self, code: u32, val: i32) { ... }
fn set_abs_maximum(&self, code: u32, val: i32) { ... }
fn set_abs_fuzz(&self, code: u32, val: i32) { ... }
fn set_abs_flat(&self, code: u32, val: i32) { ... }
fn set_abs_resolution(&self, code: u32, val: i32) { ... }
fn slot_value(&self, slot: u32, code: &EventCode) -> Option<i32> { ... }
fn set_slot_value(&self, slot: u32, code: &EventCode, val: i32) -> Result<()> { ... }
fn num_slots(&self) -> Option<i32> { ... }
fn current_slot(&self) -> Option<i32> { ... }
}
Expand description
Abstraction over structs which contain an inner *mut libevdev
Required Methods
Provided Methods
sourcefn enable<E: Enable>(&self, e: E) -> Result<()>
fn enable<E: Enable>(&self, e: E) -> Result<()>
Forcibly enable an EventType/InputProp on this device, even if the underlying device does not support it. While this cannot make the device actually report such events, it will now return true for has().
This is a local modification only affecting only this representation of this device.
sourcefn enable_property(&self, prop: &InputProp) -> Result<()>
fn enable_property(&self, prop: &InputProp) -> Result<()>
Enables this property, a call to set_file
will overwrite any previously set values
Note: Please use the enable
function instead. This function is only
available for the sake of maintaining compatibility with libevdev.
sourcefn enable_event_type(&self, ev_type: &EventType) -> Result<()>
fn enable_event_type(&self, ev_type: &EventType) -> Result<()>
Forcibly enable an event type on this device, even if the underlying device does not support it. While this cannot make the device actually report such events, it will now return true for libevdev_has_event_type().
This is a local modification only affecting only this representation of this device.
Note: Please use the enable
function instead. This function is only
available for the sake of maintaining compatibility with libevdev.
sourcefn enable_event_code(
&self,
ev_code: &EventCode,
data: Option<EnableCodeData>
) -> Result<()>
fn enable_event_code(
&self,
ev_code: &EventCode,
data: Option<EnableCodeData>
) -> Result<()>
Forcibly enable an event type on this device, even if the underlying device does not support it. While this cannot make the device actually report such events, it will now return true for libevdev_has_event_code().
The last argument depends on the type and code:
If type is EV_ABS, data must be a pointer to a struct input_absinfo
containing the data for this axis.
If type is EV_REP, data must be a pointer to a int containing the data
for this axis.
For all other types, the argument must be None
.
Note: Please use the enable
function instead. This function is only
available for the sake of maintaining compatibility with libevdev.
sourcefn disable<E: Enable>(&self, d: E) -> Result<()>
fn disable<E: Enable>(&self, d: E) -> Result<()>
Forcibly disable an EventType/EventCode on this device, even if the underlying device provides it. This effectively mutes the respective set of events. has() will return false for this EventType/EventCode
In most cases, a caller likely only wants to disable a single code, not the whole type.
Disabling EV_SYN will not work. In Peter’s Words “Don’t shoot yourself in the foot. It hurts”.
This is a local modification only affecting only this representation of this device.
sourcefn disable_event_type(&self, ev_type: &EventType) -> Result<()>
fn disable_event_type(&self, ev_type: &EventType) -> Result<()>
Forcibly disable an event type on this device, even if the underlying device provides it. This effectively mutes the respective set of events. libevdev will filter any events matching this type and none will reach the caller. libevdev_has_event_type() will return false for this type.
In most cases, a caller likely only wants to disable a single code, not
the whole type. Use disable_event_code
for that.
Disabling EV_SYN will not work. In Peter’s Words “Don’t shoot yourself in the foot. It hurts”.
This is a local modification only affecting only this representation of this device.
Note: Please use the disable
function instead. This function is only
available for the sake of maintaining compatibility with libevdev.
sourcefn disable_event_code(&self, code: &EventCode) -> Result<()>
fn disable_event_code(&self, code: &EventCode) -> Result<()>
Forcibly disable an event code on this device, even if the underlying
device provides it. This effectively mutes the respective set of
events. libevdev will filter any events matching this type and code and
none will reach the caller. has_event_code
will return false for
this code.
Disabling all event codes for a given type will not disable the event
type. Use disable_event_type
for that.
This is a local modification only affecting only this representation of this device.
Disabling codes of type EV_SYN will not work. Don’t shoot yourself in the foot. It hurts.
Note: Please use the disable
function instead. This function is only
available for the sake of maintaining compatibility with libevdev.
sourcefn has<E: Enable>(&self, e: E) -> bool
fn has<E: Enable>(&self, e: E) -> bool
Returns true
if device support the InputProp/EventType/EventCode and false otherwise
sourcefn has_property(&self, prop: &InputProp) -> bool
fn has_property(&self, prop: &InputProp) -> bool
Returns true
if device support the property and false otherwise
Note: Please use the has
function instead. This function is only
available for the sake of maintaining compatibility with libevdev.
sourcefn has_event_type(&self, ev_type: &EventType) -> bool
fn has_event_type(&self, ev_type: &EventType) -> bool
Returns true
is the device support this event type and false
otherwise
Note: Please use the has
function instead. This function is only
available for the sake of maintaining compatibility with libevdev.
sourcefn has_event_code(&self, code: &EventCode) -> bool
fn has_event_code(&self, code: &EventCode) -> bool
Return true
is the device support this event type and code and false
otherwise
Note: Please use the has
function instead. This function is only
available for the sake of maintaining compatibility with libevdev.
sourcefn name(&self) -> Option<&str>
fn name(&self) -> Option<&str>
Get device’s name, as set by the kernel, or overridden by a call to set_name
sourcefn phys(&self) -> Option<&str>
fn phys(&self) -> Option<&str>
Get device’s physical location, as set by the kernel, or overridden by a call to set_phys
sourcefn uniq(&self) -> Option<&str>
fn uniq(&self) -> Option<&str>
Get device’s unique identifier, as set by the kernel, or overridden by a call to set_uniq
fn set_name(&self, field: &str)
fn set_phys(&self, field: &str)
fn set_uniq(&self, field: &str)
fn product_id(&self) -> u16
fn vendor_id(&self) -> u16
fn bustype(&self) -> u16
fn version(&self) -> u16
fn set_product_id(&self, field: u16)
fn set_vendor_id(&self, field: u16)
fn set_bustype(&self, field: u16)
fn set_version(&self, field: u16)
sourcefn abs_info(&self, code: &EventCode) -> Option<AbsInfo>
fn abs_info(&self, code: &EventCode) -> Option<AbsInfo>
Get the axis info for the given axis, as advertised by the kernel.
Returns the AbsInfo
for the given the code or None if the device
doesn’t support this code
sourcefn set_abs_info(&self, code: &EventCode, absinfo: &AbsInfo)
fn set_abs_info(&self, code: &EventCode, absinfo: &AbsInfo)
Change the abs info for the given EV_ABS event code, if the code exists.
This function has no effect if has_event_code
returns false for
this code.
sourcefn event_value(&self, code: &EventCode) -> Option<i32>
fn event_value(&self, code: &EventCode) -> Option<i32>
Returns the current value of the event type.
If the device supports this event type and code, the return value is
set to the current value of this axis. Otherwise, None
is returned.
sourcefn set_event_value(&self, code: &EventCode, val: i32) -> Result<()>
fn set_event_value(&self, code: &EventCode, val: i32) -> Result<()>
Set the value for a given event type and code.
This only makes sense for some event types, e.g. setting the value for EV_REL is pointless.
This is a local modification only affecting only this representation of this device. A future call to event_value() will return this value, unless the value was overwritten by an event.
If the device supports ABS_MT_SLOT, the value set for any ABS_MT_*
event code is the value of the currently active slot. You should use
set_slot_value
instead.
If the device supports ABS_MT_SLOT and the type is EV_ABS and the code is
ABS_MT_SLOT, the value must be a positive number less then the number of
slots on the device. Otherwise, set_event_value
returns Err.
fn abs_minimum(&self, code: u32) -> Result<i32>
fn abs_maximum(&self, code: u32) -> Result<i32>
fn abs_fuzz(&self, code: u32) -> Result<i32>
fn abs_flat(&self, code: u32) -> Result<i32>
fn abs_resolution(&self, code: u32) -> Result<i32>
fn set_abs_minimum(&self, code: u32, val: i32)
fn set_abs_maximum(&self, code: u32, val: i32)
fn set_abs_fuzz(&self, code: u32, val: i32)
fn set_abs_flat(&self, code: u32, val: i32)
fn set_abs_resolution(&self, code: u32, val: i32)
sourcefn slot_value(&self, slot: u32, code: &EventCode) -> Option<i32>
fn slot_value(&self, slot: u32, code: &EventCode) -> Option<i32>
Return the current value of the code for the given slot.
If the device supports this event code, the return value is
is set to the current value of this axis. Otherwise, or
if the event code is not an ABS_MT_* event code, None
is returned
sourcefn set_slot_value(&self, slot: u32, code: &EventCode, val: i32) -> Result<()>
fn set_slot_value(&self, slot: u32, code: &EventCode, val: i32) -> Result<()>
Set the value for a given code for the given slot.
This is a local modification only affecting only this representation of
this device. A future call to slot_value
will return this value,
unless the value was overwritten by an event.
This function does not set event values for axes outside the ABS_MT range,
use set_event_value
instead.
sourcefn num_slots(&self) -> Option<i32>
fn num_slots(&self) -> Option<i32>
Get the number of slots supported by this device.
The number of slots supported, or None
if the device does not provide
any slots
A device may provide ABS_MT_SLOT but a total number of 0 slots. Hence
the return value of None
for “device does not provide slots at all”
sourcefn current_slot(&self) -> Option<i32>
fn current_slot(&self) -> Option<i32>
Get the currently active slot.
This may differ from the value an ioctl may return at this time as events may have been read off the file since changing the slot value but those events are still in the buffer waiting to be processed. The returned value is the value a caller would see if it were to process events manually one-by-one.