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libinput/src/libinput-private.h
Peter Hutterer e9f3fc080c tablet: revamp the tablet pressure range handling 
Commit 48cd4c7287 ("tablet: track pressure ranges per tablet") added
tracking of pressure ranges per tablet by storing ranges for multiple
(up to 4) tablets in the tool. This doesn't scale well, had the
disadvantage of the range only being updated on out-of-proximity, and is
the wrong approach anyway.

Turns out we can update the pressure range on proximity in since we
haven't processed the pressure values yet at that stage. This gives us
better behavior when switching between tablet devices (including unplug)
as the pen will only lag behind once (when setting the range) instead
of once per new tablet.

However, since the offset (which is a tool issue) applies on top of the
pressure range (which is a tablet property) this requires that we now
track the offset as percent of the range.

So on proximity in we apply the new tablet range, then apply the e.g. 5%
pressure offset within this range.

This means we no longer have to track multiple tablets since it'll just
apply on the current tablet when in proximity.

Part-of: <https://gitlab.freedesktop.org/libinput/libinput/-/merge_requests/1172>
2025-04-04 22:44:29 +00:00

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/*
* Copyright © 2013 Jonas Ådahl
* Copyright © 2013-2015 Red Hat, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#ifndef LIBINPUT_PRIVATE_H
#define LIBINPUT_PRIVATE_H
#include "config.h"
#include <errno.h>
#include <math.h>
#include <stdarg.h>
#if HAVE_LIBWACOM
#include <libwacom/libwacom.h>
#endif
#include "linux/input.h"
#include "libinput.h"
#include "libinput-private-config.h"
#include "libinput-util.h"
#include "libinput-version.h"
#include "util-newtype.h"
struct libinput_source;
/* The tablet tool pressure offset */
DECLARE_NEWTYPE(pressure_offset, double);
static inline pressure_offset_t
pressure_offset_from_range(double min, double max, double value)
{
return pressure_offset_from_double((value - min)/ (max - min));
}
static inline pressure_offset_t
pressure_offset_from_hundred(double hundred)
{
assert(hundred >= 0);
assert(hundred <= 100);
return pressure_offset_from_double(hundred/100);
}
static inline double
pressure_offset_to_hundred(pressure_offset_t pressure_offset)
{
return pressure_offset_as_double(pressure_offset) * 100;
}
static inline pressure_offset_t
pressure_offset_from_absinfo(const struct input_absinfo *abs, int value)
{
return pressure_offset_from_range(abs->minimum, abs->maximum, value);
}
static inline int
pressure_offset_to_absinfo(pressure_offset_t pressure_offset, const struct input_absinfo *abs)
{
return (abs->maximum - abs->minimum) * pressure_offset_as_double(pressure_offset) + abs->minimum;
}
/* A coordinate pair in device coordinates */
struct device_coords {
int x, y;
};
/*
* A coordinate pair in device coordinates, capable of holding non discrete
* values, this is necessary e.g. when device coordinates get averaged.
*/
struct device_float_coords {
double x, y;
};
/* A dpi-normalized coordinate pair */
struct normalized_coords {
double x, y;
};
/* A discrete step pair (mouse wheels) */
struct discrete_coords {
int x, y;
};
/* A pair of coordinates normalized to a [0,1] or [-1, 1] range */
struct normalized_range_coords {
double x, y;
};
/* A [0.0, 1.0] normalized range */
struct normalized_range {
double min, max;
};
/* A pair of angles in degrees */
struct wheel_angle {
double x, y;
};
/* A pair of wheel click data for the 120-normalized range */
struct wheel_v120 {
int x, y;
};
/* A pair of angles in degrees */
struct tilt_degrees {
double x, y;
};
/* A threshold with an upper and lower limit */
struct threshold {
int upper;
int lower;
};
/* A pair of coordinates in mm */
struct phys_coords {
double x;
double y;
};
/* A rectangle in mm, x/y is the top-left corner */
struct phys_rect {
double x, y;
double w, h;
};
/* A rectangle in device coordinates, x/y is the top-left corner */
struct device_coord_rect {
int x, y;
int w, h;
};
/* A pair of major/minor in mm */
struct phys_ellipsis {
double major;
double minor;
};
struct libinput_interface_backend {
int (*resume)(struct libinput *libinput);
void (*suspend)(struct libinput *libinput);
void (*destroy)(struct libinput *libinput);
int (*device_change_seat)(struct libinput_device *device,
const char *seat_name);
};
struct libinput {
int epoll_fd;
struct list source_destroy_list;
struct list seat_list;
struct {
struct list list;
struct libinput_source *source;
int fd;
uint64_t next_expiry;
struct ratelimit expiry_in_past_limit;
} timer;
struct libinput_event **events;
size_t events_count;
size_t events_len;
size_t events_in;
size_t events_out;
struct list tool_list;
const struct libinput_interface *interface;
const struct libinput_interface_backend *interface_backend;
libinput_log_handler log_handler;
enum libinput_log_priority log_priority;
void *user_data;
int refcount;
struct list device_group_list;
uint64_t last_event_time;
uint64_t dispatch_time;
bool quirks_initialized;
struct quirks_context *quirks;
#if HAVE_LIBWACOM
struct {
WacomDeviceDatabase *db;
size_t refcount;
} libwacom;
#endif
};
typedef void (*libinput_seat_destroy_func) (struct libinput_seat *seat);
struct libinput_seat {
struct libinput *libinput;
struct list link;
struct list devices_list;
void *user_data;
int refcount;
libinput_seat_destroy_func destroy;
char *physical_name;
char *logical_name;
uint32_t slot_map;
uint32_t button_count[KEY_CNT];
};
struct libinput_device_config_tap {
int (*count)(struct libinput_device *device);
enum libinput_config_status (*set_enabled)(struct libinput_device *device,
enum libinput_config_tap_state enable);
enum libinput_config_tap_state (*get_enabled)(struct libinput_device *device);
enum libinput_config_tap_state (*get_default)(struct libinput_device *device);
enum libinput_config_status (*set_map)(struct libinput_device *device,
enum libinput_config_tap_button_map map);
enum libinput_config_tap_button_map (*get_map)(struct libinput_device *device);
enum libinput_config_tap_button_map (*get_default_map)(struct libinput_device *device);
enum libinput_config_status (*set_drag_enabled)(struct libinput_device *device,
enum libinput_config_drag_state);
enum libinput_config_drag_state (*get_drag_enabled)(struct libinput_device *device);
enum libinput_config_drag_state (*get_default_drag_enabled)(struct libinput_device *device);
enum libinput_config_status (*set_draglock_enabled)(struct libinput_device *device,
enum libinput_config_drag_lock_state);
enum libinput_config_drag_lock_state (*get_draglock_enabled)(struct libinput_device *device);
enum libinput_config_drag_lock_state (*get_default_draglock_enabled)(struct libinput_device *device);
};
struct libinput_device_config_3fg_drag {
int (*count)(struct libinput_device *device);
enum libinput_config_status (*set_enabled)(struct libinput_device *device,
enum libinput_config_3fg_drag_state enable);
enum libinput_config_3fg_drag_state (*get_enabled)(struct libinput_device *device);
enum libinput_config_3fg_drag_state (*get_default)(struct libinput_device *device);
};
struct libinput_device_config_calibration {
int (*has_matrix)(struct libinput_device *device);
enum libinput_config_status (*set_matrix)(struct libinput_device *device,
const float matrix[6]);
int (*get_matrix)(struct libinput_device *device,
float matrix[6]);
int (*get_default_matrix)(struct libinput_device *device,
float matrix[6]);
};
struct libinput_device_config_area {
int (*has_rectangle)(struct libinput_device *device);
enum libinput_config_status (*set_rectangle)(struct libinput_device *device,
const struct libinput_config_area_rectangle *rectangle);
struct libinput_config_area_rectangle (*get_rectangle)(struct libinput_device *device);
struct libinput_config_area_rectangle (*get_default_rectangle)(struct libinput_device *device);
};
struct libinput_device_config_send_events {
uint32_t (*get_modes)(struct libinput_device *device);
enum libinput_config_status (*set_mode)(struct libinput_device *device,
enum libinput_config_send_events_mode mode);
enum libinput_config_send_events_mode (*get_mode)(struct libinput_device *device);
enum libinput_config_send_events_mode (*get_default_mode)(struct libinput_device *device);
};
/**
* Custom acceleration function min number of points
* At least 2 points are required for linear interpolation
*/
#define LIBINPUT_ACCEL_NPOINTS_MIN 2
/**
* Custom acceleration function max number of points
* an arbitrary limit of sample points
* it should be more than enough for everyone
*/
#define LIBINPUT_ACCEL_NPOINTS_MAX 64
/**
* Custom acceleration function min point value
*/
#define LIBINPUT_ACCEL_POINT_MIN_VALUE 0
/**
* Custom acceleration function max point value
*/
#define LIBINPUT_ACCEL_POINT_MAX_VALUE 10000
/**
* Custom acceleration function max step size
*/
#define LIBINPUT_ACCEL_STEP_MAX 10000
struct libinput_config_accel_custom_func {
double step;
size_t npoints;
double points[LIBINPUT_ACCEL_NPOINTS_MAX];
};
struct libinput_config_accel {
enum libinput_config_accel_profile profile;
struct {
struct libinput_config_accel_custom_func *fallback;
struct libinput_config_accel_custom_func *motion;
struct libinput_config_accel_custom_func *scroll;
} custom;
};
struct libinput_device_config_accel {
int (*available)(struct libinput_device *device);
enum libinput_config_status (*set_speed)(struct libinput_device *device,
double speed);
double (*get_speed)(struct libinput_device *device);
double (*get_default_speed)(struct libinput_device *device);
uint32_t (*get_profiles)(struct libinput_device *device);
enum libinput_config_status (*set_profile)(struct libinput_device *device,
enum libinput_config_accel_profile);
enum libinput_config_accel_profile (*get_profile)(struct libinput_device *device);
enum libinput_config_accel_profile (*get_default_profile)(struct libinput_device *device);
enum libinput_config_status (*set_accel_config)(struct libinput_device *device,
struct libinput_config_accel *accel_config);
};
struct libinput_device_config_natural_scroll {
int (*has)(struct libinput_device *device);
enum libinput_config_status (*set_enabled)(struct libinput_device *device,
int enabled);
int (*get_enabled)(struct libinput_device *device);
int (*get_default_enabled)(struct libinput_device *device);
};
struct libinput_device_config_left_handed {
int (*has)(struct libinput_device *device);
enum libinput_config_status (*set)(struct libinput_device *device, int left_handed);
int (*get)(struct libinput_device *device);
int (*get_default)(struct libinput_device *device);
};
struct libinput_device_config_scroll_method {
uint32_t (*get_methods)(struct libinput_device *device);
enum libinput_config_status (*set_method)(struct libinput_device *device,
enum libinput_config_scroll_method method);
enum libinput_config_scroll_method (*get_method)(struct libinput_device *device);
enum libinput_config_scroll_method (*get_default_method)(struct libinput_device *device);
enum libinput_config_status (*set_button)(struct libinput_device *device,
uint32_t button);
uint32_t (*get_button)(struct libinput_device *device);
uint32_t (*get_default_button)(struct libinput_device *device);
enum libinput_config_status (*set_button_lock)(struct libinput_device *device,
enum libinput_config_scroll_button_lock_state);
enum libinput_config_scroll_button_lock_state (*get_button_lock)(struct libinput_device *device);
enum libinput_config_scroll_button_lock_state (*get_default_button_lock)(struct libinput_device *device);
};
struct libinput_device_config_click_method {
uint32_t (*get_methods)(struct libinput_device *device);
enum libinput_config_status (*set_method)(struct libinput_device *device,
enum libinput_config_click_method method);
enum libinput_config_click_method (*get_method)(struct libinput_device *device);
enum libinput_config_click_method (*get_default_method)(struct libinput_device *device);
enum libinput_config_status (*set_clickfinger_map)(struct libinput_device *device,
enum libinput_config_clickfinger_button_map map);
enum libinput_config_clickfinger_button_map (*get_clickfinger_map)(struct libinput_device *device);
enum libinput_config_clickfinger_button_map (*get_default_clickfinger_map)(struct libinput_device *device);
};
struct libinput_device_config_middle_emulation {
int (*available)(struct libinput_device *device);
enum libinput_config_status (*set)(
struct libinput_device *device,
enum libinput_config_middle_emulation_state);
enum libinput_config_middle_emulation_state (*get)(
struct libinput_device *device);
enum libinput_config_middle_emulation_state (*get_default)(
struct libinput_device *device);
};
struct libinput_device_config_dwt {
int (*is_available)(struct libinput_device *device);
enum libinput_config_status (*set_enabled)(
struct libinput_device *device,
enum libinput_config_dwt_state enable);
enum libinput_config_dwt_state (*get_enabled)(
struct libinput_device *device);
enum libinput_config_dwt_state (*get_default_enabled)(
struct libinput_device *device);
};
struct libinput_device_config_dwtp {
int (*is_available)(struct libinput_device *device);
enum libinput_config_status (*set_enabled)(
struct libinput_device *device,
enum libinput_config_dwtp_state enable);
enum libinput_config_dwtp_state (*get_enabled)(
struct libinput_device *device);
enum libinput_config_dwtp_state (*get_default_enabled)(
struct libinput_device *device);
};
struct libinput_device_config_rotation {
int (*is_available)(struct libinput_device *device);
enum libinput_config_status (*set_angle)(
struct libinput_device *device,
unsigned int degrees_cw);
unsigned int (*get_angle)(struct libinput_device *device);
unsigned int (*get_default_angle)(struct libinput_device *device);
};
struct libinput_device_config_gesture {
enum libinput_config_status (*set_hold_enabled)(struct libinput_device *device,
enum libinput_config_hold_state enabled);
enum libinput_config_hold_state (*get_hold_enabled)(struct libinput_device *device);
enum libinput_config_hold_state (*get_hold_default)(struct libinput_device *device);
};
struct libinput_device_config {
struct libinput_device_config_tap *tap;
struct libinput_device_config_calibration *calibration;
struct libinput_device_config_area *area;
struct libinput_device_config_send_events *sendevents;
struct libinput_device_config_accel *accel;
struct libinput_device_config_natural_scroll *natural_scroll;
struct libinput_device_config_left_handed *left_handed;
struct libinput_device_config_scroll_method *scroll_method;
struct libinput_device_config_click_method *click_method;
struct libinput_device_config_middle_emulation *middle_emulation;
struct libinput_device_config_dwt *dwt;
struct libinput_device_config_dwtp *dwtp;
struct libinput_device_config_rotation *rotation;
struct libinput_device_config_gesture *gesture;
struct libinput_device_config_3fg_drag *drag_3fg;
};
struct libinput_device_group {
int refcount;
void *user_data;
char *identifier; /* unique identifier or NULL for singletons */
struct list link;
};
struct libinput_device {
struct libinput_seat *seat;
struct libinput_device_group *group;
struct list link;
struct list event_listeners;
void *user_data;
int refcount;
struct libinput_device_config config;
};
enum libinput_tablet_tool_axis {
LIBINPUT_TABLET_TOOL_AXIS_X = 1,
LIBINPUT_TABLET_TOOL_AXIS_Y = 2,
LIBINPUT_TABLET_TOOL_AXIS_DISTANCE = 3,
LIBINPUT_TABLET_TOOL_AXIS_PRESSURE = 4,
LIBINPUT_TABLET_TOOL_AXIS_TILT_X = 5,
LIBINPUT_TABLET_TOOL_AXIS_TILT_Y = 6,
LIBINPUT_TABLET_TOOL_AXIS_ROTATION_Z = 7,
LIBINPUT_TABLET_TOOL_AXIS_SLIDER = 8,
LIBINPUT_TABLET_TOOL_AXIS_REL_WHEEL = 9,
LIBINPUT_TABLET_TOOL_AXIS_SIZE_MAJOR = 10,
LIBINPUT_TABLET_TOOL_AXIS_SIZE_MINOR = 11,
};
#define LIBINPUT_TABLET_TOOL_AXIS_MAX LIBINPUT_TABLET_TOOL_AXIS_SIZE_MINOR
struct tablet_axes {
struct device_coords point;
struct normalized_coords delta;
double distance;
double pressure;
struct tilt_degrees tilt;
double rotation;
double slider;
double wheel;
int wheel_discrete;
struct phys_ellipsis size;
};
enum pressure_heuristic_state {
PRESSURE_HEURISTIC_STATE_PROXIN1, /** First proximity in event */
PRESSURE_HEURISTIC_STATE_PROXIN2, /** Second proximity in event */
PRESSURE_HEURISTIC_STATE_DECIDE, /** Decide on offset now */
PRESSURE_HEURISTIC_STATE_DONE, /** Decision's been made, live with it */
};
struct libinput_tablet_tool_config_pressure_range {
int (*is_available)(struct libinput_tablet_tool *tool);
enum libinput_config_status (*set)(struct libinput_tablet_tool *tool, double min, double max);
void (*get)(struct libinput_tablet_tool *tool, double *min, double *max);
void (*get_default)(struct libinput_tablet_tool *tool, double *min, double *max);
};
struct libinput_tablet_tool_pressure_threshold {
unsigned int tablet_id;
/* The configured axis we actually work with */
struct input_absinfo abs_pressure;
struct threshold threshold; /* in device coordinates */
pressure_offset_t offset;
bool has_offset;
/* This gives us per-tablet heuristic state which is arguably
* wrong but >99% of users have one tablet and it's easier to
* implement it this way */
enum pressure_heuristic_state heuristic_state;
};
struct libinput_tablet_tool {
struct list link;
uint32_t serial;
uint32_t tool_id;
enum libinput_tablet_tool_type type;
unsigned char axis_caps[NCHARS(LIBINPUT_TABLET_TOOL_AXIS_MAX + 1)];
unsigned char buttons[NCHARS(KEY_MAX) + 1];
int refcount;
void *user_data;
struct {
/* We're assuming that the *configured* pressure range is per
* tool, not per tablet. The *adjusted* thresholds are then
* per-tablet. */
struct normalized_range range;
struct normalized_range wanted_range;
bool has_configured_range;
struct libinput_tablet_tool_pressure_threshold threshold;
} pressure;
struct {
struct libinput_tablet_tool_config_pressure_range pressure_range;
} config;
};
struct libinput_tablet_pad_mode_group {
struct libinput_device *device;
struct list link;
int refcount;
void *user_data;
unsigned int index;
unsigned int num_modes;
unsigned int current_mode;
uint32_t button_mask;
uint32_t ring_mask;
uint32_t strip_mask;
uint32_t dial_mask;
uint32_t toggle_button_mask;
void (*destroy)(struct libinput_tablet_pad_mode_group *group);
};
struct libinput_event {
enum libinput_event_type type;
struct libinput_device *device;
};
struct libinput_event_listener {
struct list link;
void (*notify_func)(uint64_t time, struct libinput_event *ev, void *notify_func_data);
void *notify_func_data;
};
typedef void (*libinput_source_dispatch_t)(void *data);
#define log_debug(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_DEBUG, __VA_ARGS__)
#define log_info(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_INFO, __VA_ARGS__)
#define log_error(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_ERROR, __VA_ARGS__)
#define log_bug_kernel(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_ERROR, "kernel bug: " __VA_ARGS__)
#define log_bug_libinput(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_ERROR, "libinput bug: " __VA_ARGS__)
#define log_bug_client(li_, ...) log_msg((li_), LIBINPUT_LOG_PRIORITY_ERROR, "client bug: " __VA_ARGS__)
#define log_debug_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_DEBUG, __VA_ARGS__)
#define log_info_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_INFO, __VA_ARGS__)
#define log_error_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, __VA_ARGS__)
#define log_bug_kernel_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "kernel bug: " __VA_ARGS__)
#define log_bug_libinput_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "libinput bug: " __VA_ARGS__)
#define log_bug_client_ratelimit(li_, r_, ...) log_msg_ratelimit((li_), (r_), LIBINPUT_LOG_PRIORITY_ERROR, "client bug: " __VA_ARGS__)
static inline bool
is_logged(const struct libinput *libinput,
enum libinput_log_priority priority)
{
return libinput->log_handler &&
libinput->log_priority <= priority;
}
void
log_msg_ratelimit(struct libinput *libinput,
struct ratelimit *ratelimit,
enum libinput_log_priority priority,
const char *format, ...)
LIBINPUT_ATTRIBUTE_PRINTF(4, 5);
void
log_msg(struct libinput *libinput,
enum libinput_log_priority priority,
const char *format, ...)
LIBINPUT_ATTRIBUTE_PRINTF(3, 4);
void
log_msg_va(struct libinput *libinput,
enum libinput_log_priority priority,
const char *format,
va_list args)
LIBINPUT_ATTRIBUTE_PRINTF(3, 0);
int
libinput_init(struct libinput *libinput,
const struct libinput_interface *interface,
const struct libinput_interface_backend *interface_backend,
void *user_data);
void
libinput_init_quirks(struct libinput *libinput);
struct libinput_source *
libinput_add_fd(struct libinput *libinput,
int fd,
libinput_source_dispatch_t dispatch,
void *data);
void
libinput_remove_source(struct libinput *libinput,
struct libinput_source *source);
int
open_restricted(struct libinput *libinput,
const char *path, int flags);
void
close_restricted(struct libinput *libinput, int fd);
bool
ignore_litest_test_suite_device(struct udev_device *device);
void
libinput_seat_init(struct libinput_seat *seat,
struct libinput *libinput,
const char *physical_name,
const char *logical_name,
libinput_seat_destroy_func destroy);
void
libinput_device_init(struct libinput_device *device,
struct libinput_seat *seat);
struct libinput_device_group *
libinput_device_group_create(struct libinput *libinput,
const char *identifier);
struct libinput_device_group *
libinput_device_group_find_group(struct libinput *libinput,
const char *identifier);
void
libinput_device_set_device_group(struct libinput_device *device,
struct libinput_device_group *group);
void
libinput_device_init_event_listener(struct libinput_event_listener *listener);
void
libinput_device_add_event_listener(struct libinput_device *device,
struct libinput_event_listener *listener,
void (*notify_func)(
uint64_t time,
struct libinput_event *event,
void *notify_func_data),
void *notify_func_data);
void
libinput_device_remove_event_listener(struct libinput_event_listener *listener);
void
notify_added_device(struct libinput_device *device);
void
notify_removed_device(struct libinput_device *device);
void
keyboard_notify_key(struct libinput_device *device,
uint64_t time,
uint32_t key,
enum libinput_key_state state);
void
pointer_notify_motion(struct libinput_device *device,
uint64_t time,
const struct normalized_coords *delta,
const struct device_float_coords *raw);
void
pointer_notify_motion_absolute(struct libinput_device *device,
uint64_t time,
const struct device_coords *point);
void
pointer_notify_button(struct libinput_device *device,
uint64_t time,
int32_t button,
enum libinput_button_state state);
void
pointer_notify_axis_finger(struct libinput_device *device,
uint64_t time,
uint32_t axes,
const struct normalized_coords *delta);
void
pointer_notify_axis_continuous(struct libinput_device *device,
uint64_t time,
uint32_t axes,
const struct normalized_coords *delta);
void
pointer_notify_axis_legacy_wheel(struct libinput_device *device,
uint64_t time,
uint32_t axes,
const struct normalized_coords *delta,
const struct discrete_coords *discrete);
void
pointer_notify_axis_wheel(struct libinput_device *device,
uint64_t time,
uint32_t axes,
const struct normalized_coords *delta,
const struct wheel_v120 *v120);
void
touch_notify_touch_down(struct libinput_device *device,
uint64_t time,
int32_t slot,
int32_t seat_slot,
const struct device_coords *point);
void
touch_notify_touch_motion(struct libinput_device *device,
uint64_t time,
int32_t slot,
int32_t seat_slot,
const struct device_coords *point);
void
touch_notify_touch_up(struct libinput_device *device,
uint64_t time,
int32_t slot,
int32_t seat_slot);
void
touch_notify_touch_cancel(struct libinput_device *device,
uint64_t time,
int32_t slot,
int32_t seat_slot);
void
touch_notify_frame(struct libinput_device *device,
uint64_t time);
void
gesture_notify_swipe(struct libinput_device *device,
uint64_t time,
enum libinput_event_type type,
int finger_count,
const struct normalized_coords *delta,
const struct normalized_coords *unaccel);
void
gesture_notify_swipe_end(struct libinput_device *device,
uint64_t time,
int finger_count,
bool cancelled);
void
gesture_notify_pinch(struct libinput_device *device,
uint64_t time,
enum libinput_event_type type,
int finger_count,
const struct normalized_coords *delta,
const struct normalized_coords *unaccel,
double scale,
double angle);
void
gesture_notify_pinch_end(struct libinput_device *device,
uint64_t time,
int finger_count,
double scale,
bool cancelled);
void
gesture_notify_hold_begin(struct libinput_device *device,
uint64_t time,
int finger_count);
void
gesture_notify_hold_end(struct libinput_device *device,
uint64_t time,
int finger_count,
bool cancelled);
void
tablet_notify_axis(struct libinput_device *device,
uint64_t time,
struct libinput_tablet_tool *tool,
enum libinput_tablet_tool_tip_state tip_state,
unsigned char *changed_axes,
const struct tablet_axes *axes,
const struct input_absinfo *x,
const struct input_absinfo *y);
void
tablet_notify_proximity(struct libinput_device *device,
uint64_t time,
struct libinput_tablet_tool *tool,
enum libinput_tablet_tool_proximity_state state,
unsigned char *changed_axes,
const struct tablet_axes *axes,
const struct input_absinfo *x,
const struct input_absinfo *y);
void
tablet_notify_tip(struct libinput_device *device,
uint64_t time,
struct libinput_tablet_tool *tool,
enum libinput_tablet_tool_tip_state tip_state,
unsigned char *changed_axes,
const struct tablet_axes *axes,
const struct input_absinfo *x,
const struct input_absinfo *y);
void
tablet_notify_button(struct libinput_device *device,
uint64_t time,
struct libinput_tablet_tool *tool,
enum libinput_tablet_tool_tip_state tip_state,
const struct tablet_axes *axes,
int32_t button,
enum libinput_button_state state,
const struct input_absinfo *x,
const struct input_absinfo *y);
void
tablet_pad_notify_button(struct libinput_device *device,
uint64_t time,
int32_t button,
enum libinput_button_state state,
struct libinput_tablet_pad_mode_group *group);
void
tablet_pad_notify_dial(struct libinput_device *device,
uint64_t time,
unsigned int number,
double value,
struct libinput_tablet_pad_mode_group *group);
void
tablet_pad_notify_ring(struct libinput_device *device,
uint64_t time,
unsigned int number,
double value,
enum libinput_tablet_pad_ring_axis_source source,
struct libinput_tablet_pad_mode_group *group);
void
tablet_pad_notify_strip(struct libinput_device *device,
uint64_t time,
unsigned int number,
double value,
enum libinput_tablet_pad_strip_axis_source source,
struct libinput_tablet_pad_mode_group *group);
void
tablet_pad_notify_key(struct libinput_device *device,
uint64_t time,
int32_t key,
enum libinput_key_state state);
void
switch_notify_toggle(struct libinput_device *device,
uint64_t time,
enum libinput_switch sw,
enum libinput_switch_state state);
static inline uint64_t
libinput_now(struct libinput *libinput)
{
uint64_t now;
int rc = now_in_us(&now);
if (rc < 0) {
log_error(libinput, "clock_gettime failed: %s\n", strerror(-rc));
return 0;
}
return now;
}
static inline struct device_float_coords
device_delta(const struct device_coords a, const struct device_coords b)
{
struct device_float_coords delta;
delta.x = a.x - b.x;
delta.y = a.y - b.y;
return delta;
}
static inline struct device_float_coords
device_average(const struct device_coords a, const struct device_coords b)
{
struct device_float_coords average;
average.x = (a.x + b.x) / 2.0;
average.y = (a.y + b.y) / 2.0;
return average;
}
static inline struct device_float_coords
device_float_delta(const struct device_float_coords a, const struct device_float_coords b)
{
struct device_float_coords delta;
delta.x = a.x - b.x;
delta.y = a.y - b.y;
return delta;
}
static inline struct device_float_coords
device_float_average(const struct device_float_coords a, const struct device_float_coords b)
{
struct device_float_coords average;
average.x = (a.x + b.x) / 2.0;
average.y = (a.y + b.y) / 2.0;
return average;
}
static inline bool
device_float_is_zero(const struct device_float_coords coords)
{
return coords.x == 0.0 && coords.y == 0.0;
}
static inline double
normalized_length(const struct normalized_coords norm)
{
return hypot(norm.x, norm.y);
}
static inline bool
normalized_is_zero(const struct normalized_coords norm)
{
return norm.x == 0.0 && norm.y == 0.0;
}
static inline double
length_in_mm(const struct phys_coords mm)
{
return hypot(mm.x, mm.y);
}
enum directions {
N = bit(0),
NE = bit(1),
E = bit(2),
SE = bit(3),
S = bit(4),
SW = bit(5),
W = bit(6),
NW = bit(7),
UNDEFINED_DIRECTION = 0xff
};
static inline uint32_t
xy_get_direction(double x, double y)
{
uint32_t dir = UNDEFINED_DIRECTION;
int d1, d2;
double r;
if (fabs(x) < 2.0 && fabs(y) < 2.0) {
if (x > 0.0 && y > 0.0)
dir = S | SE | E;
else if (x > 0.0 && y < 0.0)
dir = N | NE | E;
else if (x < 0.0 && y > 0.0)
dir = S | SW | W;
else if (x < 0.0 && y < 0.0)
dir = N | NW | W;
else if (x > 0.0)
dir = NE | E | SE;
else if (x < 0.0)
dir = NW | W | SW;
else if (y > 0.0)
dir = SE | S | SW;
else if (y < 0.0)
dir = NE | N | NW;
} else {
/* Calculate r within the interval [0 to 8)
*
* r = [0 .. 2π] where 0 is North
* d_f = r / 2π ([0 .. 1))
* d_8 = 8 * d_f
*/
r = atan2(y, x);
r = fmod(r + 2.5*M_PI, 2*M_PI);
r *= 4*M_1_PI;
/* Mark one or two close enough octants */
d1 = (int)(r + 0.9) % 8;
d2 = (int)(r + 0.1) % 8;
dir = bit(d1) | bit(d2);
}
return dir;
}
static inline uint32_t
phys_get_direction(const struct phys_coords mm)
{
return xy_get_direction(mm.x, mm.y);
}
/**
* Get the direction for the given set of coordinates.
* assumption: coordinates are normalized to one axis resolution.
*/
static inline uint32_t
device_float_get_direction(const struct device_float_coords coords)
{
return xy_get_direction(coords.x, coords.y);
}
/**
* Returns true if the point is within the given rectangle, including the
* left edge but excluding the right edge.
*/
static inline bool
point_in_rect(const struct device_coords *point,
const struct device_coord_rect *rect)
{
return (point->x >= rect->x &&
point->x < rect->x + rect->w &&
point->y >= rect->y &&
point->y < rect->y + rect->h);
}
#if HAVE_LIBWACOM
WacomDeviceDatabase *
libinput_libwacom_ref(struct libinput *li);
void
libinput_libwacom_unref(struct libinput *li);
#else
static inline void *libinput_libwacom_ref(struct libinput *li) { return NULL; }
static inline void libinput_libwacom_unref(struct libinput *li) {}
#endif
#endif /* LIBINPUT_PRIVATE_H */
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