_roll(n->getNode("roll-input", false)),
_width_units(int(n->getFloatValue("display-span"))),
_div_units(int(fabs(n->getFloatValue("divisions")))),
- _scr_hole(fabsf(n->getFloatValue("screen-hole")) * 0.5f),
+ _scr_hole(fabs(n->getFloatValue("screen-hole")) * 0.5f),
_zero_bar_overlength(n->getFloatValue("zero-bar-overlength", 10)),
_dive_bar_angle(n->getBoolValue("enable-dive-bar-angle")),
_tick_length(n->getFloatValue("tick-length")),
//****************************************************************
//velocity vector reticle - computations
float xvvr, /* yvvr, */ Vxx = 0.0, Vyy = 0.0, Vzz = 0.0;
- float Axx = 0.0, Ayy = 0.0, Azz = 0.0, total_vel = 0.0, pot_slope, t1;
+ float Axx = 0.0, Ayy = 0.0, Azz = 0.0, total_vel = 0.0, pot_slope; //, t1;
float up_vel, ground_vel, actslope = 0.0, psi = 0.0;
float vel_x = 0.0, vel_y = 0.0, drift;
float alpha;
if (_energy_marker) {
if (total_vel < 5.0) {
- t1 = 0;
+// t1 = 0;
t2 = 0;
} else {
- t1 = up_vel / total_vel;
+// t1 = up_vel / total_vel;
t2 = asin((Vxx * Axx + Vyy * Ayy + Vzz * Azz) / (9.81 * total_vel));
}
pot_slope = ((t2 / 3) * SGD_RADIANS_TO_DEGREES) * _compression + vel_y;