float automation_min = mwindow->edl->local_session->automation_mins[autogrouptype];
float automation_max = mwindow->edl->local_session->automation_maxs[autogrouptype];
float automation_range = automation_max - automation_min;
+ if( autogrouptype == AUTOGROUPTYPE_SPEED && automation_range < SPEED_MIN )
+ automation_range = SPEED_MIN;
for( int x=x1; x<x2; ++x ) {
// Interpolate value between frames
X_TO_FLOATLINE(x)
float automation_min = mwindow->edl->local_session->automation_mins[autogrouptype];
float automation_max = mwindow->edl->local_session->automation_maxs[autogrouptype];
float automation_range = automation_max - automation_min;
+ if( autogrouptype == AUTOGROUPTYPE_SPEED && automation_range < SPEED_MIN )
+ automation_range = SPEED_MIN;
FloatAuto *previous1 = 0, *next1 = 0;
X_TO_FLOATLINE(cursor_x);
CLAMP(new_value, auto_min, auto_max);
keyframe->adjust_to_new_coordinates(current_position, new_value);
}
- else {
+ else if( all >= 0 ) {
// create keyframe on neighbouring track at the point in time given by fauto
FloatAuto *previous = 0, *next = 0;
float value = fade_autos->get_value(current_position, PLAY_FORWARD, previous, next);
keyframe = (FloatAuto*)fade_autos->insert_auto(current_position);
keyframe->set_value(new_value);
}
+ if( !keyframe ) continue;
mwindow->session->drag_auto_gang->append((Auto *)keyframe);
}
}
float automation_min = mwindow->edl->local_session->automation_mins[autogrouptype];
float automation_max = mwindow->edl->local_session->automation_maxs[autogrouptype];
float automation_range = automation_max - automation_min;
+ if( autogrouptype == AUTOGROUPTYPE_SPEED && automation_range < SPEED_MIN )
+ automation_range = SPEED_MIN;
FloatAuto *ptr = (FloatAuto*)current;
*x = (double)(ptr->position - unit_start) / zoom_units;
*y = ((ptr->get_value() - automation_min) / automation_range - 0.5) * -yscale;