moonlight-qt/app/streaming/input/reltouch.cpp

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#include "input.h"
#include <Limelight.h>
#include <SDL.h>
#include <QtMath>
// How long the mouse button will be pressed for a tap to click gesture
#define TAP_BUTTON_RELEASE_DELAY 100
// How long the fingers must be stationary to start a drag
#define DRAG_ACTIVATION_DELAY 650
// How far the finger can move before it cancels a drag or tap
#define DEAD_ZONE_DELTA 0.01f
Uint32 SdlInputHandler::releaseLeftButtonTimerCallback(Uint32, void*)
{
LiSendMouseButtonEvent(BUTTON_ACTION_RELEASE, BUTTON_LEFT);
return 0;
}
Uint32 SdlInputHandler::releaseRightButtonTimerCallback(Uint32, void*)
{
LiSendMouseButtonEvent(BUTTON_ACTION_RELEASE, BUTTON_RIGHT);
return 0;
}
Uint32 SdlInputHandler::dragTimerCallback(Uint32, void *param)
{
auto me = reinterpret_cast<SdlInputHandler*>(param);
// Check how many fingers are down now to decide
// which button to hold down
if (me->m_NumFingersDown == 2) {
me->m_DragButton = BUTTON_RIGHT;
}
else if (me->m_NumFingersDown == 1) {
me->m_DragButton = BUTTON_LEFT;
}
LiSendMouseButtonEvent(BUTTON_ACTION_PRESS, me->m_DragButton);
return 0;
}
void SdlInputHandler::handleRelativeFingerEvent(SDL_TouchFingerEvent* event)
{
int fingerIndex = -1;
// Observations on Windows 10: x and y appear to be relative to 0,0 of the window client area.
// Although SDL documentation states they are 0.0 - 1.0 float values, they can actually be higher
// or lower than those values as touch events continue for touches started within the client area that
// leave the client area during a drag motion.
// dx and dy are deltas from the last touch event, not the first touch down.
// Determine the index of this finger using our list
// of fingers that are currently active on screen.
// This is also required to handle finger up which
// where the finger will not be in SDL_GetTouchFinger()
// anymore.
if (event->type != SDL_FINGERDOWN) {
for (int i = 0; i < MAX_FINGERS; i++) {
if (event->fingerId == m_TouchDownEvent[i].fingerId) {
fingerIndex = i;
break;
}
}
}
else {
// Resolve the new finger by determining the ID of each
// finger on the display.
int numTouchFingers = SDL_GetNumTouchFingers(event->touchId);
for (int i = 0; i < numTouchFingers; i++) {
SDL_Finger* finger = SDL_GetTouchFinger(event->touchId, i);
SDL_assert(finger != nullptr);
if (finger != nullptr) {
if (finger->id == event->fingerId) {
fingerIndex = i;
break;
}
}
}
}
if (fingerIndex < 0 || fingerIndex >= MAX_FINGERS) {
// Too many fingers
return;
}
// Handle cursor motion based on the position of the
// primary finger on screen
if (fingerIndex == 0) {
// The event x and y values are relative to our window width
// and height. However, we want to scale them to be relative
// to the host resolution. Fortunately this is easy since we
// already have normalized values. We'll just multiply them
// by the stream dimensions to get real X and Y values rather
// than the client window dimensions.
short deltaX = static_cast<short>(event->dx * m_StreamWidth);
short deltaY = static_cast<short>(event->dy * m_StreamHeight);
if (deltaX != 0 || deltaY != 0) {
LiSendMouseMoveEvent(deltaX, deltaY);
}
}
// Start a drag timer when primary or secondary
// fingers go down
if (event->type == SDL_FINGERDOWN &&
(fingerIndex == 0 || fingerIndex == 1)) {
SDL_RemoveTimer(m_DragTimer);
m_DragTimer = SDL_AddTimer(DRAG_ACTIVATION_DELAY,
dragTimerCallback,
this);
}
if (event->type == SDL_FINGERMOTION) {
// If it's outside the deadzone delta, cancel drags and taps
if (qSqrt(qPow(event->x - m_TouchDownEvent[fingerIndex].x, 2) +
qPow(event->y - m_TouchDownEvent[fingerIndex].y, 2)) > DEAD_ZONE_DELTA) {
SDL_RemoveTimer(m_DragTimer);
m_DragTimer = 0;
// This effectively cancels the tap logic below
m_TouchDownEvent[fingerIndex].timestamp = 0;
}
}
if (event->type == SDL_FINGERUP) {
// Cancel the drag timer on finger up
SDL_RemoveTimer(m_DragTimer);
m_DragTimer = 0;
// Release any drag
if (m_DragButton != 0) {
LiSendMouseButtonEvent(BUTTON_ACTION_RELEASE, m_DragButton);
m_DragButton = 0;
}
// 2 finger tap
else if (event->timestamp - m_TouchDownEvent[1].timestamp < 250) {
// Zero timestamp of the primary finger to ensure we won't
// generate a left click if the primary finger comes up soon.
m_TouchDownEvent[0].timestamp = 0;
// Press down the right mouse button
LiSendMouseButtonEvent(BUTTON_ACTION_PRESS, BUTTON_RIGHT);
// Queue a timer to release it in 100 ms
SDL_RemoveTimer(m_RightButtonReleaseTimer);
m_RightButtonReleaseTimer = SDL_AddTimer(TAP_BUTTON_RELEASE_DELAY,
releaseRightButtonTimerCallback,
nullptr);
}
// 1 finger tap
else if (event->timestamp - m_TouchDownEvent[0].timestamp < 250) {
// Press down the left mouse button
LiSendMouseButtonEvent(BUTTON_ACTION_PRESS, BUTTON_LEFT);
// Queue a timer to release it in 100 ms
SDL_RemoveTimer(m_LeftButtonReleaseTimer);
m_LeftButtonReleaseTimer = SDL_AddTimer(TAP_BUTTON_RELEASE_DELAY,
releaseLeftButtonTimerCallback,
nullptr);
}
}
m_NumFingersDown = SDL_GetNumTouchFingers(event->touchId);
if (event->type == SDL_FINGERDOWN) {
m_TouchDownEvent[fingerIndex] = *event;
}
else if (event->type == SDL_FINGERUP) {
m_TouchDownEvent[fingerIndex] = {};
}
}