Ejemplo n.º 1
0
void execute_pinch(int fd, uint32_t device_flags, int touch1_x1,
                   int touch1_y1, int touch1_x2, int touch1_y2, int touch2_x1,
                   int touch2_y1, int touch2_x2, int touch2_y2, int num_steps,
                   int duration_msec)
{
  int delta1[] = {(touch1_x2-touch1_x1)/num_steps, (touch1_y2-touch1_y1)/num_steps};
  int delta2[] = {(touch2_x2-touch2_x1)/num_steps, (touch2_y2-touch2_y1)/num_steps};
  int sleeptime = duration_msec / num_steps;
  int i;

  print_action(ACTION_START, "pinch",
               "\"touch1_x1\": %d, \"touch1_y1\": %d, \"touch1_x2\": %d, "
               "\"touch1_y2\": %d, \"touch2_x1\": %d, \"touch2_y1\": %d, "
               "\"touch2_x2\": %d, \"touch2_y2\": %d, \"num_steps\": %d, "
               "\"duration_msec\": %d",
               touch1_x1, touch1_y1, touch1_x2, touch1_y2,
               touch2_x1, touch2_y1, touch2_x2, touch2_y2,
               num_steps, duration_msec);

  // press
  change_mt_slot(fd, device_flags, 0);
  add_mt_tracking_id(fd, device_flags, global_tracking_id++);
  execute_press(fd, device_flags, touch1_x1, touch1_y1);

  change_mt_slot(fd, device_flags, 1);
  add_mt_tracking_id(fd, device_flags, global_tracking_id++);
  execute_press(fd, device_flags, touch2_x1, touch2_y1);

  // drag
  for (i=0; i<num_steps; i++) {
    execute_sleep(sleeptime);

    change_mt_slot(fd, device_flags, 0);
    execute_move(fd, device_flags, touch1_x1+delta1[0]*i, touch1_y1+delta1[1]*i);

    change_mt_slot(fd, device_flags, 1);
    execute_move(fd, device_flags, touch2_x1+delta2[0]*i, touch2_y1+delta2[1]*i);

    //write_event(fd, EV_SYN, SYN_REPORT, 0);
  }

  // release
  change_mt_slot(fd, device_flags, 0);
  execute_release(fd, device_flags);

  change_mt_slot(fd, device_flags, 1);
  execute_release(fd, device_flags);

  remove_mt_tracking_id(fd, device_flags, 0);
  remove_mt_tracking_id(fd, device_flags, 1);

  // wait
  execute_sleep(100);

  print_action(ACTION_END, "pinch", NULL);
}
Ejemplo n.º 2
0
void execute_drag(int fd, uint32_t device_flags, int start_x,
                  int start_y, int end_x, int end_y, int num_steps,
                  int duration_msec)
{
  int delta[] = {(end_x-start_x)/num_steps, (end_y-start_y)/num_steps};
  int sleeptime = duration_msec / num_steps;
  int i;

  print_action(ACTION_START, "drag", "\"start_x\": %d, \"start_y\": %d, "
               "\"end_x\": %d, \"end_y\": %d, \"num_steps\": %d, "
               "\"duration_msec\": %d", start_x, start_y, end_x, end_y,
               num_steps, duration_msec);

  // press
  execute_press(fd, device_flags, start_x, start_y);

  // drag
  for (i=0; i<num_steps; i++) {
    execute_sleep(sleeptime);
    execute_move(fd, device_flags, start_x+delta[0]*i, start_y+delta[1]*i);
  }

  // release
  execute_release(fd, device_flags);

  // wait
  execute_sleep(100);

  print_action(ACTION_END, "drag", NULL);
}
Ejemplo n.º 3
0
void execute_pinch(int fd, int version, unsigned int device_flags, int touch1_x1,
                   int touch1_y1, int touch1_x2, int touch1_y2, int touch2_x1,
                   int touch2_y1, int touch2_x2, int touch2_y2, int num_steps,
                   int duration_msec)
{
    int delta1[] = {(touch1_x2-touch1_x1)/num_steps, (touch1_y2-touch1_y1)/num_steps};
    int delta2[] = {(touch2_x2-touch2_x1)/num_steps, (touch2_y2-touch2_y1)/num_steps};
    int sleeptime = duration_msec / num_steps;
    int i;

    // press
    change_mt_slot(fd, version, device_flags, 0);
    add_mt_tracking_id(fd, version, device_flags, global_tracking_id++);
    execute_press(fd, version, device_flags, touch1_x1, touch1_y1);

    change_mt_slot(fd, version, device_flags, 1);
    add_mt_tracking_id(fd, version, device_flags, global_tracking_id++);
    execute_press(fd, version, device_flags, touch2_x1, touch2_y1);

    // drag
    for (i=0; i<num_steps; i++) {
      execute_sleep(sleeptime);

      change_mt_slot(fd, version, device_flags, 0);
      execute_move(fd, version, device_flags, touch1_x1+delta1[0]*i, touch1_y1+delta1[1]*i);

      change_mt_slot(fd, version, device_flags, 1);
      execute_move(fd, version, device_flags, touch2_x1+delta2[0]*i, touch2_y1+delta2[1]*i);

      //write_event(fd, EV_SYN, SYN_REPORT, 0);
    }

    // release
    change_mt_slot(fd, version, device_flags, 0);
    execute_release(fd, version, device_flags);

    change_mt_slot(fd, version, device_flags, 1);
    execute_release(fd, version, device_flags);

    remove_mt_tracking_id(fd, version, device_flags, 0);
    remove_mt_tracking_id(fd, version, device_flags, 1);

    // wait
    execute_sleep(100);

}
Ejemplo n.º 4
0
void execute_drag(int fd, uint32_t device_flags, int start_x,
                  int start_y, int end_x, int end_y, int num_steps,
                  int duration_msec)
{
  int delta[] = {(end_x-start_x)/num_steps, (end_y-start_y)/num_steps};
  double desired_interval_msec, avg_event_dispatch_time_msec;
  struct timespec start_time, current_time, time_before_last_move;
  int i;

  clock_gettime(CLOCK_MONOTONIC, &start_time);
  double start_nsecs = (double) (start_time.tv_sec * (1000*1000)) + start_time.tv_nsec;

  print_action(ACTION_START, "drag", "\"start_x\": %d, \"start_y\": %d, "
               "\"end_x\": %d, \"end_y\": %d, \"num_steps\": %d, "
               "\"duration_msec\": %d", start_x, start_y, end_x, end_y,
               num_steps, duration_msec);

  // press
  clock_gettime(CLOCK_MONOTONIC, &time_before_last_move);
  execute_press(fd, device_flags, start_x, start_y);

  // drag
  desired_interval_msec = duration_msec / num_steps;
  for (i=0; i<num_steps; i++) {
    clock_gettime(CLOCK_MONOTONIC, &current_time);
    avg_event_dispatch_time_msec = ((avg_event_dispatch_time_msec * i) +
                                    timediff_msec(&time_before_last_move,
                                                  &current_time)) / i;
    if (desired_interval_msec > 0 &&
        avg_event_dispatch_time_msec < desired_interval_msec) {
      execute_sleep(desired_interval_msec - avg_event_dispatch_time_msec);
    }

    memcpy(&time_before_last_move, &current_time, sizeof(struct timespec));
    execute_move(fd, device_flags, start_x+delta[0]*i, start_y+delta[1]*i);
  }

  // release
  execute_release(fd, device_flags);

  // wait
  execute_sleep(100);

  print_action(ACTION_END, "drag", NULL);
}
Ejemplo n.º 5
0
void execute_tap(int fd, int version, unsigned int device_flags, int x, int y,
                 int num_times)
{
  int i;

  for (i=0;i<num_times;i++) {
    // press
    execute_press(fd, version, device_flags, x, y);
    execute_sleep(100);

    // release
    execute_release(fd, version, device_flags);
    execute_sleep(100);

    // wait
    execute_sleep(50);
  }
}
Ejemplo n.º 6
0
Archivo: orng.c Proyecto: tdz/orangutan 
void execute_tap(int fd, uint32_t device_flags, int x, int y,
                 int num_times, int duration_msec)
{
  int i;

  for (i=0; i<num_times; i++) {
    // press
    execute_press(fd, device_flags, x, y);
    execute_sleep(duration_msec);

    // release
    execute_release(fd, device_flags);
    execute_sleep(100);

    // wait
    execute_sleep(50);
  }
}
Ejemplo n.º 7
0
void execute_drag(int fd, int version, unsigned int device_flags, int start_x,
                  int start_y, int end_x, int end_y, int num_steps,
                  int duration_msec)
{
    int delta[] = {(end_x-start_x)/num_steps, (end_y-start_y)/num_steps};
    int sleeptime = duration_msec / num_steps;
    int i;

    // press
    execute_press(fd, version, device_flags, start_x, start_y);

    // drag
    for (i=0; i<num_steps; i++) {
      execute_sleep(sleeptime);
      execute_move(fd, version, device_flags, start_x+delta[0]*i, start_y+delta[1]*i);
    }

    // release
    execute_release(fd, version, device_flags);

    // wait
    execute_sleep(100);
}
Ejemplo n.º 8
0
void execute_tap(int fd, uint32_t device_flags, int x, int y,
                 int num_times, int duration_msec)
{
  int i;

  print_action(ACTION_START, "tap", "\"x\": %d, \"y\": %d, "
               "\"num_times\": %d, \"duration_msec\": %d", x, y, num_times,
               duration_msec);

  for (i=0; i<num_times; i++) {
    // press
    execute_press(fd, device_flags, x, y);
    execute_sleep(duration_msec);

    // release
    execute_release(fd, device_flags);
    execute_sleep(100);

    // wait
    execute_sleep(50);
  }

  print_action(ACTION_END, "tap", NULL);
}