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/*
* Copyright © 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.
*/
#include "config.h"
#include <math.h>
#include <stdbool.h>
#include <limits.h>
#include "evdev-mt-touchpad.h"
#define DEFAULT_GESTURE_SWITCH_TIMEOUT ms2us(100)
#define DEFAULT_GESTURE_2FG_SCROLL_TIMEOUT ms2us(500)
static inline const char*
gesture_state_to_str(enum tp_gesture_state state)
{
switch (state) {
CASE_RETURN_STRING(GESTURE_STATE_NONE);
CASE_RETURN_STRING(GESTURE_STATE_UNKNOWN);
CASE_RETURN_STRING(GESTURE_STATE_SCROLL);
CASE_RETURN_STRING(GESTURE_STATE_PINCH);
CASE_RETURN_STRING(GESTURE_STATE_SWIPE);
}
return NULL;
}
static struct normalized_coords
tp_get_touches_delta(struct tp_dispatch *tp, bool average)
{
struct tp_touch *t;
unsigned int i, nactive = 0;
struct normalized_coords normalized;
struct normalized_coords delta = {0.0, 0.0};
for (i = 0; i < tp->num_slots; i++) {
t = &tp->touches[i];
if (!tp_touch_active(tp, t))
continue;
nactive++;
if (t->dirty) {
normalized = tp_get_delta(t);
delta.x += normalized.x;
delta.y += normalized.y;
}
}
if (!average || nactive == 0)
return delta;
delta.x /= nactive;
delta.y /= nactive;
return delta;
}
static inline struct normalized_coords
tp_get_combined_touches_delta(struct tp_dispatch *tp)
{
return tp_get_touches_delta(tp, false);
}
static inline struct normalized_coords
tp_get_average_touches_delta(struct tp_dispatch *tp)
{
return tp_get_touches_delta(tp, true);
}
static void
tp_gesture_start(struct tp_dispatch *tp, uint64_t time)
{
struct libinput *libinput = tp->device->base.seat->libinput;
const struct normalized_coords zero = { 0.0, 0.0 };
if (tp->gesture.started)
return;
switch (tp->gesture.state) {
case GESTURE_STATE_NONE:
case GESTURE_STATE_UNKNOWN:
log_bug_libinput(libinput,
"%s in unknown gesture mode\n",
__func__);
break;
case GESTURE_STATE_SCROLL:
/* NOP */
break;
case GESTURE_STATE_PINCH:
gesture_notify_pinch(&tp->device->base, time,
LIBINPUT_EVENT_GESTURE_PINCH_BEGIN,
tp->gesture.finger_count,
&zero, &zero, 1.0, 0.0);
break;
case GESTURE_STATE_SWIPE:
gesture_notify_swipe(&tp->device->base, time,
LIBINPUT_EVENT_GESTURE_SWIPE_BEGIN,
tp->gesture.finger_count,
&zero, &zero);
break;
}
tp->gesture.started = true;
}
static void
tp_gesture_post_pointer_motion(struct tp_dispatch *tp, uint64_t time)
{
struct normalized_coords delta, unaccel;
struct device_float_coords raw;
/* When a clickpad is clicked, combine motion of all active touches */
if (tp->buttons.is_clickpad && tp->buttons.state)
unaccel = tp_get_combined_touches_delta(tp);
else
unaccel = tp_get_average_touches_delta(tp);
delta = tp_filter_motion(tp, &unaccel, time);
if (!normalized_is_zero(delta) || !normalized_is_zero(unaccel)) {
raw = tp_unnormalize_for_xaxis(tp, unaccel);
pointer_notify_motion(&tp->device->base,
time,
&delta,
&raw);
}
}
static unsigned int
tp_gesture_get_active_touches(const struct tp_dispatch *tp,
struct tp_touch **touches,
unsigned int count)
{
unsigned int i, n = 0;
struct tp_touch *t;
memset(touches, 0, count * sizeof(struct tp_touch *));
for (i = 0; i < tp->ntouches; i++) {
t = &tp->touches[i];
if (tp_touch_active(tp, t)) {
touches[n++] = t;
if (n == count)
return count;
}
}
/*
* This can happen when the user does .e.g:
* 1) Put down 1st finger in center (so active)
* 2) Put down 2nd finger in a button area (so inactive)
* 3) Put down 3th finger somewhere, gets reported as a fake finger,
* so gets same coordinates as 1st -> active
*
* We could avoid this by looking at all touches, be we really only
* want to look at real touches.
*/
return n;
}
static int
tp_gesture_get_direction(struct tp_dispatch *tp, struct tp_touch *touch)
{
struct normalized_coords normalized;
struct device_float_coords delta;
double move_threshold = TP_MM_TO_DPI_NORMALIZED(1);
delta = device_delta(touch->point, touch->gesture.initial);
normalized = tp_normalize_delta(tp, delta);
if (normalized_length(normalized) < move_threshold)
return UNDEFINED_DIRECTION;
return normalized_get_direction(normalized);
}
static void
tp_gesture_get_pinch_info(struct tp_dispatch *tp,
double *distance,
double *angle,
struct device_float_coords *center)
{
struct normalized_coords normalized;
struct device_float_coords delta;
struct tp_touch *first = tp->gesture.touches[0],
*second = tp->gesture.touches[1];
delta = device_delta(first->point, second->point);
normalized = tp_normalize_delta(tp, delta);
*distance = normalized_length(normalized);
*angle = atan2(normalized.y, normalized.x) * 180.0 / M_PI;
*center = device_average(first->point, second->point);
}
static void
tp_gesture_set_scroll_buildup(struct tp_dispatch *tp)
{
struct device_float_coords d0, d1;
struct device_float_coords average;
struct tp_touch *first = tp->gesture.touches[0],
*second = tp->gesture.touches[1];
d0 = device_delta(first->point, first->gesture.initial);
d1 = device_delta(second->point, second->gesture.initial);
average = device_float_average(d0, d1);
tp->device->scroll.buildup = tp_normalize_delta(tp, average);
}
static enum tp_gesture_state
tp_gesture_handle_state_none(struct tp_dispatch *tp, uint64_t time)
{
struct tp_touch *first, *second;
struct tp_touch *touches[4];
unsigned int ntouches;
unsigned int i;
ntouches = tp_gesture_get_active_touches(tp, touches, 4);
if (ntouches < 2)
return GESTURE_STATE_NONE;
if (!tp->gesture.enabled) {
if (ntouches == 2)
return GESTURE_STATE_SCROLL;
else
return GESTURE_STATE_SWIPE;
}
first = touches[0];
second = touches[1];
/* For 3+ finger gestures we cheat. A human hand's finger
* arrangement means that for a 3 or 4 finger swipe gesture, the
* fingers are roughly arranged in a horizontal line.
* They will all move in the same direction, so we can simply look
* at the left and right-most ones only. If we have fake touches, we
* just take the left/right-most real touch position, since the fake
* touch has the same location as one of those.
*
* For a 3 or 4 finger pinch gesture, 2 or 3 fingers are roughly in
* a horizontal line, with the thumb below and left (right-handed
* users) or right (left-handed users). Again, the row of non-thumb
* fingers moves identically so we can look at the left and
* right-most only and then treat it like a two-finger
* gesture.
*/
if (ntouches > 2) {
second = touches[0];
for (i = 1; i < ntouches && i < tp->num_slots; i++) {
if (touches[i]->point.x < first->point.x)
first = touches[i];
else if (touches[i]->point.x > second->point.x)
second = touches[i];
}
if (first == second)
return GESTURE_STATE_NONE;
}
tp->gesture.initial_time = time;
first->gesture.initial = first->point;
second->gesture.initial = second->point;
tp->gesture.touches[0] = first;
tp->gesture.touches[1] = second;
return GESTURE_STATE_UNKNOWN;
}
static inline int
tp_gesture_same_directions(int dir1, int dir2)
{
/*
* In some cases (semi-mt touchpads) we may seen one finger move
* e.g. N/NE and the other W/NW so we not only check for overlapping
* directions, but also for neighboring bits being set.
* The ((dira & 0x80) && (dirb & 0x01)) checks are to check for bit 0
* and 7 being set as they also represent neighboring directions.
*/
return ((dir1 | (dir1 >> 1)) & dir2) ||
((dir2 | (dir2 >> 1)) & dir1) ||
((dir1 & 0x80) && (dir2 & 0x01)) ||
((dir2 & 0x80) && (dir1 & 0x01));
}
static inline void
tp_gesture_init_pinch( struct tp_dispatch *tp)
{
tp_gesture_get_pinch_info(tp,
&tp->gesture.initial_distance,
&tp->gesture.angle,
&tp->gesture.center);
tp->gesture.prev_scale = 1.0;
}
static enum tp_gesture_state
tp_gesture_handle_state_unknown(struct tp_dispatch *tp, uint64_t time)
{
struct tp_touch *first = tp->gesture.touches[0],
*second = tp->gesture.touches[1];
int dir1, dir2;
int yres = tp->device->abs.absinfo_y->resolution;
int vert_distance;
/* for two-finger gestures, if the fingers stay unmoving for a
* while, assume (slow) scroll */
if (tp->gesture.finger_count == 2 &&
time > (tp->gesture.initial_time + DEFAULT_GESTURE_2FG_SCROLL_TIMEOUT)) {
tp_gesture_set_scroll_buildup(tp);
return GESTURE_STATE_SCROLL;
}
/* Else check if one finger is > 20mm below the others */
vert_distance = abs(first->point.y - second->point.y);
if (vert_distance > 20 * yres &&
tp->gesture.enabled) {
tp_gesture_init_pinch(tp);
return GESTURE_STATE_PINCH;
}
/* Else wait for both fingers to have moved */
dir1 = tp_gesture_get_direction(tp, first);
dir2 = tp_gesture_get_direction(tp, second);
if (dir1 == UNDEFINED_DIRECTION || dir2 == UNDEFINED_DIRECTION)
return GESTURE_STATE_UNKNOWN;
/* If both touches are moving in the same direction assume
* scroll or swipe */
if (tp_gesture_same_directions(dir1, dir2)) {
if (tp->gesture.finger_count == 2) {
tp_gesture_set_scroll_buildup(tp);
return GESTURE_STATE_SCROLL;
} else if (tp->gesture.enabled) {
return GESTURE_STATE_SWIPE;
}
} else {
tp_gesture_init_pinch(tp);
return GESTURE_STATE_PINCH;
}
return GESTURE_STATE_UNKNOWN;
}
static enum tp_gesture_state
tp_gesture_handle_state_scroll(struct tp_dispatch *tp, uint64_t time)
{
struct normalized_coords delta;
if (tp->scroll.method != LIBINPUT_CONFIG_SCROLL_2FG)
return GESTURE_STATE_SCROLL;
delta = tp_get_average_touches_delta(tp);
/* scroll is not accelerated */
delta = tp_filter_motion_unaccelerated(tp, &delta, time);
if (normalized_is_zero(delta))
return GESTURE_STATE_SCROLL;
tp_gesture_start(tp, time);
evdev_post_scroll(tp->device,
time,
LIBINPUT_POINTER_AXIS_SOURCE_FINGER,
&delta);
return GESTURE_STATE_SCROLL;
}
static enum tp_gesture_state
tp_gesture_handle_state_swipe(struct tp_dispatch *tp, uint64_t time)
{
struct normalized_coords delta, unaccel;
unaccel = tp_get_average_touches_delta(tp);
delta = tp_filter_motion(tp, &unaccel, time);
if (!normalized_is_zero(delta) || !normalized_is_zero(unaccel)) {
tp_gesture_start(tp, time);
gesture_notify_swipe(&tp->device->base, time,
LIBINPUT_EVENT_GESTURE_SWIPE_UPDATE,
tp->gesture.finger_count,
&delta, &unaccel);
}
return GESTURE_STATE_SWIPE;
}
static enum tp_gesture_state
tp_gesture_handle_state_pinch(struct tp_dispatch *tp, uint64_t time)
{
double angle, angle_delta, distance, scale;
struct device_float_coords center, fdelta;
struct normalized_coords delta, unaccel;
tp_gesture_get_pinch_info(tp, &distance, &angle, ¢er);
scale = distance / tp->gesture.initial_distance;
angle_delta = angle - tp->gesture.angle;
tp->gesture.angle = angle;
if (angle_delta > 180.0)
angle_delta -= 360.0;
else if (angle_delta < -180.0)
angle_delta += 360.0;
fdelta = device_float_delta(center, tp->gesture.center);
tp->gesture.center = center;
unaccel = tp_normalize_delta(tp, fdelta);
delta = tp_filter_motion(tp, &unaccel, time);
if (normalized_is_zero(delta) && normalized_is_zero(unaccel) &&
scale == tp->gesture.prev_scale && angle_delta == 0.0)
return GESTURE_STATE_PINCH;
tp_gesture_start(tp, time);
gesture_notify_pinch(&tp->device->base, time,
LIBINPUT_EVENT_GESTURE_PINCH_UPDATE,
tp->gesture.finger_count,
&delta, &unaccel, scale, angle_delta);
tp->gesture.prev_scale = scale;
return GESTURE_STATE_PINCH;
}
static void
tp_gesture_post_gesture(struct tp_dispatch *tp, uint64_t time)
{
enum tp_gesture_state oldstate = tp->gesture.state;
if (tp->gesture.state == GESTURE_STATE_NONE)
tp->gesture.state =
tp_gesture_handle_state_none(tp, time);
if (tp->gesture.state == GESTURE_STATE_UNKNOWN)
tp->gesture.state =
tp_gesture_handle_state_unknown(tp, time);
if (tp->gesture.state == GESTURE_STATE_SCROLL)
tp->gesture.state =
tp_gesture_handle_state_scroll(tp, time);
if (tp->gesture.state == GESTURE_STATE_SWIPE)
tp->gesture.state =
tp_gesture_handle_state_swipe(tp, time);
if (tp->gesture.state == GESTURE_STATE_PINCH)
tp->gesture.state =
tp_gesture_handle_state_pinch(tp, time);
log_debug(tp_libinput_context(tp),
"gesture state: %s → %s\n",
gesture_state_to_str(oldstate),
gesture_state_to_str(tp->gesture.state));
}
void
tp_gesture_post_events(struct tp_dispatch *tp, uint64_t time)
{
if (tp->gesture.finger_count == 0)
return;
/* When tap-and-dragging, or a clickpad is clicked force 1fg mode */
if (tp_tap_dragging(tp) || (tp->buttons.is_clickpad && tp->buttons.state)) {
tp_gesture_cancel(tp, time);
tp->gesture.finger_count = 1;
tp->gesture.finger_count_pending = 0;
}
/* Don't send events when we're unsure in which mode we are */
if (tp->gesture.finger_count_pending)
return;
switch (tp->gesture.finger_count) {
case 1:
tp_gesture_post_pointer_motion(tp, time);
break;
case 2:
case 3:
case 4:
tp_gesture_post_gesture(tp, time);
break;
}
}
void
tp_gesture_stop_twofinger_scroll(struct tp_dispatch *tp, uint64_t time)
{
if (tp->scroll.method != LIBINPUT_CONFIG_SCROLL_2FG)
return;
evdev_stop_scroll(tp->device,
time,
LIBINPUT_POINTER_AXIS_SOURCE_FINGER);
}
static void
tp_gesture_end(struct tp_dispatch *tp, uint64_t time, bool cancelled)
{
struct libinput *libinput = tp->device->base.seat->libinput;
enum tp_gesture_state state = tp->gesture.state;
tp->gesture.state = GESTURE_STATE_NONE;
if (!tp->gesture.started)
return;
switch (state) {
case GESTURE_STATE_NONE:
case GESTURE_STATE_UNKNOWN:
log_bug_libinput(libinput,
"%s in unknown gesture mode\n",
__func__);
break;
case GESTURE_STATE_SCROLL:
tp_gesture_stop_twofinger_scroll(tp, time);
break;
case GESTURE_STATE_PINCH:
gesture_notify_pinch_end(&tp->device->base, time,
tp->gesture.finger_count,
tp->gesture.prev_scale,
cancelled);
break;
case GESTURE_STATE_SWIPE:
gesture_notify_swipe_end(&tp->device->base,
time,
tp->gesture.finger_count,
cancelled);
break;
}
tp->gesture.started = false;
}
void
tp_gesture_cancel(struct tp_dispatch *tp, uint64_t time)
{
tp_gesture_end(tp, time, true);
}
void
tp_gesture_stop(struct tp_dispatch *tp, uint64_t time)
{
tp_gesture_end(tp, time, false);
}
static void
tp_gesture_finger_count_switch_timeout(uint64_t now, void *data)
{
struct tp_dispatch *tp = data;
if (!tp->gesture.finger_count_pending)
return;
tp_gesture_cancel(tp, now); /* End current gesture */
tp->gesture.finger_count = tp->gesture.finger_count_pending;
tp->gesture.finger_count_pending = 0;
}
void
tp_gesture_handle_state(struct tp_dispatch *tp, uint64_t time)
{
unsigned int active_touches = 0;
struct tp_touch *t;
tp_for_each_touch(tp, t) {
if (tp_touch_active(tp, t))
active_touches++;
}
if (active_touches != tp->gesture.finger_count) {
/* If all fingers are lifted immediately end the gesture */
if (active_touches == 0) {
tp_gesture_stop(tp, time);
tp->gesture.finger_count = 0;
tp->gesture.finger_count_pending = 0;
/* Immediately switch to new mode to avoid initial latency */
} else if (!tp->gesture.started) {
tp->gesture.finger_count = active_touches;
tp->gesture.finger_count_pending = 0;
/* Else debounce finger changes */
} else if (active_touches != tp->gesture.finger_count_pending) {
tp->gesture.finger_count_pending = active_touches;
libinput_timer_set(&tp->gesture.finger_count_switch_timer,
time + DEFAULT_GESTURE_SWITCH_TIMEOUT);
}
} else {
tp->gesture.finger_count_pending = 0;
}
}
int
tp_init_gesture(struct tp_dispatch *tp)
{
/* two-finger scrolling is always enabled, this flag just
* decides whether we detect pinch. semi-mt devices are too
* unreliable to do pinch gestures. */
tp->gesture.enabled = !tp->semi_mt && tp->num_slots > 1;
tp->gesture.state = GESTURE_STATE_NONE;
libinput_timer_init(&tp->gesture.finger_count_switch_timer,
tp->device->base.seat->libinput,
tp_gesture_finger_count_switch_timeout, tp);
return 0;
}
void
tp_remove_gesture(struct tp_dispatch *tp)
{
libinput_timer_cancel(&tp->gesture.finger_count_switch_timer);
}
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