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wayland: Add high-resolution event timestamp support 

Add the protocol for high-resolution timestamp events and subscribe to them if available.

Event timestamps are now handled natively in nanoseconds as much as possible to avoid error-prone conversions.

Variables have been appended with _ms or _ns where appropriate, to avoid ambiguity.
This commit is contained in:
Frank Praznik 2022-12-04 11:45:19 -05:00 committed by Sam Lantinga
parent 4a22ee7277
commit 8cafde5ecc
6 changed files with 278 additions and 43 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

126
src/video/wayland/SDL_waylandevents.c
View File

@ -39,6 +39,7 @@
#include "text-input-unstable-v3-client-protocol.h"
#include "tablet-unstable-v2-client-protocol.h"
#include "primary-selection-unstable-v1-client-protocol.h"
#include "input-timestamps-unstable-v1-client-protocol.h"
#ifdef HAVE_LIBDECOR_H
#include <libdecor.h>
@ -173,11 +174,10 @@ static struct wl_surface *touch_surface(SDL_TouchID id)
return NULL;
}
Uint64 Wayland_GetEventTimestamp(Uint32 wayland_timestamp)
Uint64 Wayland_GetEventTimestamp(Uint64 nsTimestamp)
{
static Uint32 last;
static Uint64 last;
static Uint64 timestamp_offset;
Uint64 nsTimestamp = SDL_MS_TO_NS(wayland_timestamp);
const Uint64 now = SDL_GetTicksNS();
if (!nsTimestamp) {
@ -203,19 +203,71 @@ Uint64 Wayland_GetEventTimestamp(Uint32 wayland_timestamp)
return nsTimestamp;
}
static void Wayland_input_timestamp_listener(void *data, struct zwp_input_timestamps_v1 *zwp_input_timestamps_v1,
uint32_t tv_sec_hi, uint32_t tv_sec_lo, uint32_t tv_nsec)
{
*((Uint64 *)data) = ((((Uint64)tv_sec_hi << 32) | (Uint64)tv_sec_lo) * SDL_NS_PER_SECOND) + tv_nsec;
}
static const struct zwp_input_timestamps_v1_listener timestamp_listener = {
Wayland_input_timestamp_listener
};
static Uint64 Wayland_GetKeyboardTimestamp(struct SDL_WaylandInput *input, Uint32 wl_timestamp_ms)
{
return Wayland_GetEventTimestamp(input->keyboard_timestamp_ns ? input->keyboard_timestamp_ns : SDL_MS_TO_NS(wl_timestamp_ms));
}
static Uint64 Wayland_GetKeyboardTimestampRaw(struct SDL_WaylandInput *input, Uint32 wl_timestamp_ms)
{
return input->keyboard_timestamp_ns ? input->keyboard_timestamp_ns : SDL_MS_TO_NS(wl_timestamp_ms);
}
static Uint64 Wayland_GetPointerTimestamp(struct SDL_WaylandInput *input, Uint32 wl_timestamp_ms)
{
return Wayland_GetEventTimestamp(input->pointer_timestamp_ns ? input->pointer_timestamp_ns : SDL_MS_TO_NS(wl_timestamp_ms));
}
Uint64 Wayland_GetTouchTimestamp(struct SDL_WaylandInput *input, Uint32 wl_timestamp_ms)
{
return Wayland_GetEventTimestamp(input->touch_timestamp_ns ? input->touch_timestamp_ns : SDL_MS_TO_NS(wl_timestamp_ms));
}
void Wayland_RegisterTimestampListeners(struct SDL_WaylandInput *input)
{
SDL_VideoData *viddata = input->display;
if (viddata->input_timestamps_manager) {
if (input->keyboard && !input->keyboard_timestamps) {
input->keyboard_timestamps = zwp_input_timestamps_manager_v1_get_keyboard_timestamps(viddata->input_timestamps_manager, input->keyboard);
zwp_input_timestamps_v1_add_listener(input->keyboard_timestamps, &timestamp_listener, &input->keyboard_timestamp_ns);
}
if (input->pointer && !input->pointer_timestamps) {
input->pointer_timestamps = zwp_input_timestamps_manager_v1_get_pointer_timestamps(viddata->input_timestamps_manager, input->pointer);
zwp_input_timestamps_v1_add_listener(input->pointer_timestamps, &timestamp_listener, &input->pointer_timestamp_ns);
}
if (input->touch && !input->touch_timestamps) {
input->touch_timestamps = zwp_input_timestamps_manager_v1_get_touch_timestamps(viddata->input_timestamps_manager, input->touch);
zwp_input_timestamps_v1_add_listener(input->touch_timestamps, &timestamp_listener, &input->touch_timestamp_ns);
}
}
}
/* Returns SDL_TRUE if a key repeat event was due */
static SDL_bool keyboard_repeat_handle(SDL_WaylandKeyboardRepeat *repeat_info, uint32_t elapsed)
static SDL_bool keyboard_repeat_handle(SDL_WaylandKeyboardRepeat *repeat_info, Uint64 elapsed)
{
SDL_bool ret = SDL_FALSE;
while ((elapsed - repeat_info->next_repeat_ms) < 0x80000000U) {
while (elapsed >= repeat_info->next_repeat_ns) {
if (repeat_info->scancode != SDL_SCANCODE_UNKNOWN) {
const Uint32 timestamp = repeat_info->wl_press_time + repeat_info->next_repeat_ms;
const Uint64 timestamp = repeat_info->wl_press_time_ns + repeat_info->next_repeat_ns;
SDL_SendKeyboardKey(Wayland_GetEventTimestamp(timestamp), SDL_PRESSED, repeat_info->scancode);
}
if (repeat_info->text[0]) {
SDL_SendKeyboardText(repeat_info->text);
}
repeat_info->next_repeat_ms += 1000 / repeat_info->repeat_rate;
repeat_info->next_repeat_ns += SDL_NS_PER_SECOND / (Uint64)repeat_info->repeat_rate;
ret = SDL_TRUE;
}
return ret;
@ -229,7 +281,7 @@ static void keyboard_repeat_clear(SDL_WaylandKeyboardRepeat *repeat_info)
repeat_info->is_key_down = SDL_FALSE;
}
static void keyboard_repeat_set(SDL_WaylandKeyboardRepeat *repeat_info, uint32_t key, uint32_t wl_press_time,
static void keyboard_repeat_set(SDL_WaylandKeyboardRepeat *repeat_info, uint32_t key, Uint64 wl_press_time_ns,
uint32_t scancode, SDL_bool has_text, char text[8])
{
if (!repeat_info->is_initialized || !repeat_info->repeat_rate) {
@ -237,9 +289,9 @@ static void keyboard_repeat_set(SDL_WaylandKeyboardRepeat *repeat_info, uint32_t
}
repeat_info->is_key_down = SDL_TRUE;
repeat_info->key = key;
repeat_info->wl_press_time = wl_press_time;
repeat_info->sdl_press_time = SDL_GetTicks();
repeat_info->next_repeat_ms = repeat_info->repeat_delay;
repeat_info->wl_press_time_ns = wl_press_time_ns;
repeat_info->sdl_press_time_ns = SDL_GetTicksNS();
repeat_info->next_repeat_ns = SDL_MS_TO_NS(repeat_info->repeat_delay_ms);
repeat_info->scancode = scancode;
if (has_text) {
SDL_memcpy(repeat_info->text, text, 8);
@ -317,16 +369,16 @@ int Wayland_WaitEventTimeout(_THIS, Sint64 timeoutNS)
/* If key repeat is active, we'll need to cap our maximum wait time to handle repeats */
if (input && keyboard_repeat_is_set(&input->keyboard_repeat)) {
uint32_t elapsed = (uint32_t)(SDL_GetTicks() - input->keyboard_repeat.sdl_press_time);
const Uint64 elapsed = SDL_GetTicksNS() - input->keyboard_repeat.sdl_press_time_ns;
if (keyboard_repeat_handle(&input->keyboard_repeat, elapsed)) {
/* A repeat key event was already due */
return 1;
} else {
uint32_t next_repeat_wait_time = (input->keyboard_repeat.next_repeat_ms - elapsed) + 1;
const Uint64 next_repeat_wait_time = (input->keyboard_repeat.next_repeat_ns - elapsed) + 1;
if (timeoutNS >= 0) {
timeoutNS = SDL_min(timeoutNS, SDL_MS_TO_NS(next_repeat_wait_time));
timeoutNS = SDL_min(timeoutNS, next_repeat_wait_time);
} else {
timeoutNS = SDL_MS_TO_NS(next_repeat_wait_time);
timeoutNS = next_repeat_wait_time;
}
key_repeat_active = SDL_TRUE;
}
@ -347,7 +399,7 @@ int Wayland_WaitEventTimeout(_THIS, Sint64 timeoutNS)
/* If key repeat is active, we might have woken up to generate a key event */
if (key_repeat_active) {
uint32_t elapsed = (uint32_t)(SDL_GetTicks() - input->keyboard_repeat.sdl_press_time);
const Uint64 elapsed = SDL_GetTicksNS() - input->keyboard_repeat.sdl_press_time_ns;
if (keyboard_repeat_handle(&input->keyboard_repeat, elapsed)) {
return 1;
}
@ -406,7 +458,7 @@ void Wayland_PumpEvents(_THIS)
err = WAYLAND_wl_display_dispatch_pending(d->display);
if (input && keyboard_repeat_is_set(&input->keyboard_repeat)) {
uint32_t elapsed = (uint32_t)(SDL_GetTicks() - input->keyboard_repeat.sdl_press_time);
const Uint64 elapsed = SDL_GetTicksNS() - input->keyboard_repeat.sdl_press_time_ns;
keyboard_repeat_handle(&input->keyboard_repeat, elapsed);
}
@ -440,7 +492,7 @@ static void pointer_handle_motion(void *data, struct wl_pointer *pointer,
const float sy_f = (float)wl_fixed_to_double(sy_w);
const int sx = (int)SDL_floorf(sx_f * window->pointer_scale_x);
const int sy = (int)SDL_floorf(sy_f * window->pointer_scale_y);
SDL_SendMouseMotion(Wayland_GetEventTimestamp(time), window->sdlwindow, 0, 0, sx, sy);
SDL_SendMouseMotion(Wayland_GetPointerTimestamp(input, time), window->sdlwindow, 0, 0, sx, sy);
}
}
@ -634,7 +686,7 @@ static void pointer_handle_button_common(struct SDL_WaylandInput *input, uint32_
Wayland_data_device_set_serial(input->data_device, serial);
Wayland_primary_selection_device_set_serial(input->primary_selection_device, serial);
SDL_SendMouseButton(Wayland_GetEventTimestamp(time), window->sdlwindow, 0,
SDL_SendMouseButton(Wayland_GetPointerTimestamp(input, time), window->sdlwindow, 0,
state ? SDL_PRESSED : SDL_RELEASED, sdl_button);
}
}
@ -671,7 +723,7 @@ static void pointer_handle_axis_common_v1(struct SDL_WaylandInput *input,
x /= WAYLAND_WHEEL_AXIS_UNIT;
y /= WAYLAND_WHEEL_AXIS_UNIT;
SDL_SendMouseWheel(Wayland_GetEventTimestamp(time), window->sdlwindow, 0, x, y, SDL_MOUSEWHEEL_NORMAL);
SDL_SendMouseWheel(Wayland_GetPointerTimestamp(input, time), window->sdlwindow, 0, x, y, SDL_MOUSEWHEEL_NORMAL);
}
}
@ -754,7 +806,7 @@ static void pointer_handle_axis(void *data, struct wl_pointer *pointer,
struct SDL_WaylandInput *input = data;
if (wl_seat_get_version(input->seat) >= 5) {
input->pointer_curr_axis_info.timestamp = time;
input->pointer_curr_axis_info.timestamp_ns = Wayland_GetPointerTimestamp(input, time);
pointer_handle_axis_common(input, AXIS_EVENT_CONTINUOUS, axis, value);
} else {
pointer_handle_axis_common_v1(input, time, axis, value);
@ -801,7 +853,7 @@ static void pointer_handle_frame(void *data, struct wl_pointer *pointer)
SDL_memset(&input->pointer_curr_axis_info, 0, sizeof input->pointer_curr_axis_info);
if (x != 0.0f || y != 0.0f) {
SDL_SendMouseWheel(Wayland_GetEventTimestamp(input->pointer_curr_axis_info.timestamp),
SDL_SendMouseWheel(input->pointer_curr_axis_info.timestamp_ns,
window->sdlwindow, 0, x, y, SDL_MOUSEWHEEL_NORMAL);
}
}
@ -851,6 +903,7 @@ static void touch_handler_down(void *data, struct wl_touch *touch, uint32_t seri
uint32_t timestamp, struct wl_surface *surface,
int id, wl_fixed_t fx, wl_fixed_t fy)
{
struct SDL_WaylandInput *input = (struct SDL_WaylandInput *)data;
SDL_WindowData *window_data = (SDL_WindowData *)wl_surface_get_user_data(surface);
const double dblx = wl_fixed_to_double(fx) * window_data->pointer_scale_x;
const double dbly = wl_fixed_to_double(fy) * window_data->pointer_scale_y;
@ -859,13 +912,14 @@ static void touch_handler_down(void *data, struct wl_touch *touch, uint32_t seri
touch_add(id, x, y, surface);
SDL_SendTouch(Wayland_GetEventTimestamp(timestamp), (SDL_TouchID)(intptr_t)touch,
SDL_SendTouch(Wayland_GetTouchTimestamp(input, timestamp), (SDL_TouchID)(intptr_t)touch,
(SDL_FingerID)id, window_data->sdlwindow, SDL_TRUE, x, y, 1.0f);
}
static void touch_handler_up(void *data, struct wl_touch *touch, uint32_t serial,
uint32_t timestamp, int id)
{
struct SDL_WaylandInput *input = (struct SDL_WaylandInput *)data;
float x = 0, y = 0;
struct wl_surface *surface = NULL;
SDL_Window *window = NULL;
@ -877,13 +931,14 @@ static void touch_handler_up(void *data, struct wl_touch *touch, uint32_t serial
window = window_data->sdlwindow;
}
SDL_SendTouch(Wayland_GetEventTimestamp(timestamp), (SDL_TouchID)(intptr_t)touch,
SDL_SendTouch(Wayland_GetTouchTimestamp(input, timestamp), (SDL_TouchID)(intptr_t)touch,
(SDL_FingerID)id, window, SDL_FALSE, x, y, 0.0f);
}
static void touch_handler_motion(void *data, struct wl_touch *touch, uint32_t timestamp,
int id, wl_fixed_t fx, wl_fixed_t fy)
{
struct SDL_WaylandInput *input = (struct SDL_WaylandInput *)data;
SDL_WindowData *window_data = (SDL_WindowData *)wl_surface_get_user_data(touch_surface(id));
const double dblx = wl_fixed_to_double(fx) * window_data->pointer_scale_x;
const double dbly = wl_fixed_to_double(fy) * window_data->pointer_scale_y;
@ -891,7 +946,7 @@ static void touch_handler_motion(void *data, struct wl_touch *touch, uint32_t ti
const float y = dbly / window_data->sdlwindow->h;
touch_update(id, x, y);
SDL_SendTouchMotion(Wayland_GetEventTimestamp(timestamp), (SDL_TouchID)(intptr_t)touch,
SDL_SendTouchMotion(Wayland_GetPointerTimestamp(input, timestamp), (SDL_TouchID)(intptr_t)touch,
(SDL_FingerID)id, window_data->sdlwindow, x, y, 1.0f);
}
@ -1237,6 +1292,7 @@ static void keyboard_handle_key(void *data, struct wl_keyboard *keyboard,
char text[8];
SDL_bool has_text = SDL_FALSE;
SDL_bool handled_by_ime = SDL_FALSE;
const Uint64 timestamp_raw_ns = Wayland_GetKeyboardTimestampRaw(input, time);
if (state == WL_KEYBOARD_KEY_STATE_PRESSED) {
has_text = keyboard_input_get_text(text, input, key, SDL_PRESSED, &handled_by_ime);
@ -1247,7 +1303,7 @@ static void keyboard_handle_key(void *data, struct wl_keyboard *keyboard,
* Using SDL_GetTicks would be wrong, as it would report when the release event is processed,
* which may be off if the application hasn't pumped events for a while.
*/
keyboard_repeat_handle(&input->keyboard_repeat, time - input->keyboard_repeat.wl_press_time);
keyboard_repeat_handle(&input->keyboard_repeat, timestamp_raw_ns - input->keyboard_repeat.wl_press_time_ns);
keyboard_repeat_clear(&input->keyboard_repeat);
}
keyboard_input_get_text(text, input, key, SDL_RELEASED, &handled_by_ime);
@ -1255,7 +1311,7 @@ static void keyboard_handle_key(void *data, struct wl_keyboard *keyboard,
if (!handled_by_ime) {
scancode = Wayland_get_scancode_from_key(input, key + 8);
SDL_SendKeyboardKey(Wayland_GetEventTimestamp(time), state == WL_KEYBOARD_KEY_STATE_PRESSED ? SDL_PRESSED : SDL_RELEASED, scancode);
SDL_SendKeyboardKey(Wayland_GetKeyboardTimestamp(input, time), state == WL_KEYBOARD_KEY_STATE_PRESSED ? SDL_PRESSED : SDL_RELEASED, scancode);
}
if (state == WL_KEYBOARD_KEY_STATE_PRESSED) {
@ -1267,7 +1323,7 @@ static void keyboard_handle_key(void *data, struct wl_keyboard *keyboard,
}
}
if (input->xkb.keymap && WAYLAND_xkb_keymap_key_repeats(input->xkb.keymap, key + 8)) {
keyboard_repeat_set(&input->keyboard_repeat, key, time, scancode, has_text, text);
keyboard_repeat_set(&input->keyboard_repeat, key, timestamp_raw_ns, scancode, has_text, text);
}
}
}
@ -1325,7 +1381,7 @@ static void keyboard_handle_repeat_info(void *data, struct wl_keyboard *wl_keybo
{
struct SDL_WaylandInput *input = data;
input->keyboard_repeat.repeat_rate = SDL_clamp(rate, 0, 1000);
input->keyboard_repeat.repeat_delay = delay;
input->keyboard_repeat.repeat_delay_ms = delay;
input->keyboard_repeat.is_initialized = SDL_TRUE;
}
@ -1377,6 +1433,8 @@ static void seat_handle_capabilities(void *data, struct wl_seat *seat,
wl_keyboard_destroy(input->keyboard);
input->keyboard = NULL;
}
Wayland_RegisterTimestampListeners(input);
}
static void seat_handle_name(void *data, struct wl_seat *wl_seat, const char *name)
@ -2396,6 +2454,16 @@ void Wayland_display_destroy_input(SDL_VideoData *d)
return;
}
if (input->keyboard_timestamps) {
zwp_input_timestamps_v1_destroy(input->keyboard_timestamps);
}
if (input->pointer_timestamps) {
zwp_input_timestamps_v1_destroy(input->pointer_timestamps);
}
if (input->touch_timestamps) {
zwp_input_timestamps_v1_destroy(input->touch_timestamps);
}
if (input->data_device != NULL) {
Wayland_data_device_clear_selection(input->data_device);
if (input->data_device->selection_offer != NULL) {

27
src/video/wayland/SDL_waylandevents_c.h
View File

@ -68,16 +68,15 @@ struct SDL_WaylandTabletInput
typedef struct
{
// repeat_rate in range of [1, 1000]
int32_t repeat_rate;
int32_t repeat_delay;
int32_t repeat_rate; /* Repeat rate in range of [1, 1000] character(s) per second */
int32_t repeat_delay_ms; /* Time to first repeat event in milliseconds */
SDL_bool is_initialized;
SDL_bool is_key_down;
uint32_t key;
uint32_t wl_press_time; // Key press time as reported by the Wayland API
Uint64 sdl_press_time; // Key press time expressed in SDL ticks
uint32_t next_repeat_ms;
Uint64 wl_press_time_ns; /* Key press time as reported by the Wayland API */
Uint64 sdl_press_time_ns; /* Key press time expressed in SDL ticks */
Uint64 next_repeat_ns; /* Next repeat event in nanoseconds */
uint32_t scancode;
char text[8];
} SDL_WaylandKeyboardRepeat;
@ -93,10 +92,18 @@ struct SDL_WaylandInput
SDL_WaylandPrimarySelectionDevice *primary_selection_device;
SDL_WaylandTextInput *text_input;
struct zwp_relative_pointer_v1 *relative_pointer;
struct zwp_input_timestamps_v1 *keyboard_timestamps;
struct zwp_input_timestamps_v1 *pointer_timestamps;
struct zwp_input_timestamps_v1 *touch_timestamps;
SDL_WindowData *pointer_focus;
SDL_WindowData *keyboard_focus;
uint32_t pointer_enter_serial;
/* High-resolution event timestamps */
Uint64 keyboard_timestamp_ns;
Uint64 pointer_timestamp_ns;
Uint64 touch_timestamp_ns;
/* Last motion location */
wl_fixed_t sx_w;
wl_fixed_t sy_w;
@ -134,8 +141,8 @@ struct SDL_WaylandInput
enum SDL_WaylandAxisEvent y_axis_type;
float y;
/* Event timestamp in milliseconds */
Uint32 timestamp;
/* Event timestamp in nanoseconds */
Uint64 timestamp_ns;
} pointer_curr_axis_info;
SDL_WaylandKeyboardRepeat keyboard_repeat;
@ -149,7 +156,7 @@ struct SDL_WaylandInput
SDL_bool keyboard_is_virtual;
};
extern Uint64 Wayland_GetEventTimestamp(Uint32 wayland_timestamp);
extern Uint64 Wayland_GetTouchTimestamp(struct SDL_WaylandInput *input, Uint32 wl_timestamp_ms);
extern void Wayland_PumpEvents(_THIS);
extern void Wayland_SendWakeupEvent(_THIS, SDL_Window *window);
@ -180,6 +187,8 @@ extern int Wayland_input_ungrab_keyboard(SDL_Window *window);
extern void Wayland_input_add_tablet(struct SDL_WaylandInput *input, struct SDL_WaylandTabletManager *tablet_manager);
extern void Wayland_input_destroy_tablet(struct SDL_WaylandInput *input);
extern void Wayland_RegisterTimestampListeners(struct SDL_WaylandInput *input);
#endif /* SDL_waylandevents_h_ */
/* vi: set ts=4 sw=4 expandtab: */

11
src/video/wayland/SDL_waylandtouch.c
View File

@ -71,6 +71,8 @@ static void touch_handle_touch(void *data,
* (src/compositor/wayland_wrapper/qwltouch.cpp)
**/
SDL_VideoData *viddata = (SDL_VideoData *)data;
float FIXED_TO_FLOAT = 1. / 10000.;
float xf = FIXED_TO_FLOAT * normalized_x;
float yf = FIXED_TO_FLOAT * normalized_y;
@ -105,13 +107,12 @@ static void touch_handle_touch(void *data,
switch (touchState) {
case QtWaylandTouchPointPressed:
case QtWaylandTouchPointReleased:
SDL_SendTouch(Wayland_GetEventTimestamp(time), deviceId, (SDL_FingerID)id, window,
(touchState == QtWaylandTouchPointPressed) ? SDL_TRUE : SDL_FALSE,
xf, yf, pressuref);
SDL_SendTouch(Wayland_GetTouchTimestamp(viddata->input, time), deviceId, (SDL_FingerID)id,
window, (touchState == QtWaylandTouchPointPressed) ? SDL_TRUE : SDL_FALSE, xf, yf, pressuref);
break;
case QtWaylandTouchPointMoved:
SDL_SendTouchMotion(Wayland_GetEventTimestamp(time), deviceId, (SDL_FingerID)id, window,
xf, yf, pressuref);
SDL_SendTouchMotion(Wayland_GetTouchTimestamp(viddata->input, time), deviceId, (SDL_FingerID)id,
window, xf, yf, pressuref);
break;
default:
/* Should not happen */

11
src/video/wayland/SDL_waylandvideo.c
View File

@ -53,6 +53,7 @@
#include "viewporter-client-protocol.h"
#include "primary-selection-unstable-v1-client-protocol.h"
#include "fractional-scale-v1-client-protocol.h"
#include "input-timestamps-unstable-v1-client-protocol.h"
#ifdef HAVE_LIBDECOR_H
#include <libdecor.h>
@ -849,6 +850,11 @@ static void display_handle_global(void *data, struct wl_registry *registry, uint
d->viewporter = wl_registry_bind(d->registry, id, &wp_viewporter_interface, 1);
} else if (SDL_strcmp(interface, "wp_fractional_scale_manager_v1") == 0) {
d->fractional_scale_manager = wl_registry_bind(d->registry, id, &wp_fractional_scale_manager_v1_interface, 1);
} else if (SDL_strcmp(interface, "zwp_input_timestamps_manager_v1") == 0) {
d->input_timestamps_manager = wl_registry_bind(d->registry, id, &zwp_input_timestamps_manager_v1_interface, 1);
if (d->input) {
Wayland_RegisterTimestampListeners(d->input);
}
#ifdef SDL_VIDEO_DRIVER_WAYLAND_QT_TOUCH
} else if (SDL_strcmp(interface, "qt_touch_extension") == 0) {
Wayland_touch_create(d, id);
@ -1099,6 +1105,11 @@ static void Wayland_VideoCleanup(_THIS)
data->fractional_scale_manager = NULL;
}
if (data->input_timestamps_manager) {
zwp_input_timestamps_manager_v1_destroy(data->input_timestamps_manager);
data->input_timestamps_manager = NULL;
}
if (data->compositor) {
wl_compositor_destroy(data->compositor);
data->compositor = NULL;

1
src/video/wayland/SDL_waylandvideo.h
View File

@ -79,6 +79,7 @@ typedef struct
struct zxdg_output_manager_v1 *xdg_output_manager;
struct wp_viewporter *viewporter;
struct wp_fractional_scale_manager_v1 *fractional_scale_manager;
struct zwp_input_timestamps_manager_v1 *input_timestamps_manager;
EGLDisplay edpy;
EGLContext context;

145
wayland-protocols/input-timestamps-unstable-v1.xml Normal file
View File

@ -0,0 +1,145 @@
<?xml version="1.0" encoding="UTF-8"?>
<protocol name="input_timestamps_unstable_v1">
<copyright>
Copyright © 2017 Collabora, Ltd.
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.
</copyright>
<description summary="High-resolution timestamps for input events">
This protocol specifies a way for a client to request and receive
high-resolution timestamps for input events.
Warning! The protocol described in this file is experimental and
backward incompatible changes may be made. Backward compatible changes
may be added together with the corresponding interface version bump.
Backward incompatible changes are done by bumping the version number in
the protocol and interface names and resetting the interface version.
Once the protocol is to be declared stable, the 'z' prefix and the
version number in the protocol and interface names are removed and the
interface version number is reset.
</description>
<interface name="zwp_input_timestamps_manager_v1" version="1">
<description summary="context object for high-resolution input timestamps">
A global interface used for requesting high-resolution timestamps
for input events.
</description>
<request name="destroy" type="destructor">
<description summary="destroy the input timestamps manager object">
Informs the server that the client will no longer be using this
protocol object. Existing objects created by this object are not
affected.
</description>
</request>
<request name="get_keyboard_timestamps">
<description summary="subscribe to high-resolution keyboard timestamp events">
Creates a new input timestamps object that represents a subscription
to high-resolution timestamp events for all wl_keyboard events that
carry a timestamp.
If the associated wl_keyboard object is invalidated, either through
client action (e.g. release) or server-side changes, the input
timestamps object becomes inert and the client should destroy it
by calling zwp_input_timestamps_v1.destroy.
</description>
<arg name="id" type="new_id" interface="zwp_input_timestamps_v1"/>
<arg name="keyboard" type="object" interface="wl_keyboard"
summary="the wl_keyboard object for which to get timestamp events"/>
</request>
<request name="get_pointer_timestamps">
<description summary="subscribe to high-resolution pointer timestamp events">
Creates a new input timestamps object that represents a subscription
to high-resolution timestamp events for all wl_pointer events that
carry a timestamp.
If the associated wl_pointer object is invalidated, either through
client action (e.g. release) or server-side changes, the input
timestamps object becomes inert and the client should destroy it
by calling zwp_input_timestamps_v1.destroy.
</description>
<arg name="id" type="new_id" interface="zwp_input_timestamps_v1"/>
<arg name="pointer" type="object" interface="wl_pointer"
summary="the wl_pointer object for which to get timestamp events"/>
</request>
<request name="get_touch_timestamps">
<description summary="subscribe to high-resolution touch timestamp events">
Creates a new input timestamps object that represents a subscription
to high-resolution timestamp events for all wl_touch events that
carry a timestamp.
If the associated wl_touch object becomes invalid, either through
client action (e.g. release) or server-side changes, the input
timestamps object becomes inert and the client should destroy it
by calling zwp_input_timestamps_v1.destroy.
</description>
<arg name="id" type="new_id" interface="zwp_input_timestamps_v1"/>
<arg name="touch" type="object" interface="wl_touch"
summary="the wl_touch object for which to get timestamp events"/>
</request>
</interface>
<interface name="zwp_input_timestamps_v1" version="1">
<description summary="context object for input timestamps">
Provides high-resolution timestamp events for a set of subscribed input
events. The set of subscribed input events is determined by the
zwp_input_timestamps_manager_v1 request used to create this object.
</description>
<request name="destroy" type="destructor">
<description summary="destroy the input timestamps object">
Informs the server that the client will no longer be using this
protocol object. After the server processes the request, no more
timestamp events will be emitted.
</description>
</request>
<event name="timestamp">
<description summary="high-resolution timestamp event">
The timestamp event is associated with the first subsequent input event
carrying a timestamp which belongs to the set of input events this
object is subscribed to.
The timestamp provided by this event is a high-resolution version of
the timestamp argument of the associated input event. The provided
timestamp is in the same clock domain and is at least as accurate as
the associated input event timestamp.
The timestamp is expressed as tv_sec_hi, tv_sec_lo, tv_nsec triples,
each component being an unsigned 32-bit value. Whole seconds are in
tv_sec which is a 64-bit value combined from tv_sec_hi and tv_sec_lo,
and the additional fractional part in tv_nsec as nanoseconds. Hence,
for valid timestamps tv_nsec must be in [0, 999999999].
</description>
<arg name="tv_sec_hi" type="uint"
summary="high 32 bits of the seconds part of the timestamp"/>
<arg name="tv_sec_lo" type="uint"
summary="low 32 bits of the seconds part of the timestamp"/>
<arg name="tv_nsec" type="uint"
summary="nanoseconds part of the timestamp"/>
</event>
</interface>
</protocol>