void godob::handle_time_keys(btnval_e lcd_key)
{
switch (lcd_key)
{
case btnRIGHT:
if(t_set==true){
t_idx++;
t_idx %= 7;
}
t_set = true;
t_adjust=show_adjust(t_idx);
break;
case btnLEFT:
if(t_set==true){
t_idx+=6;
t_idx %= 7;
}
t_set = true;
t_adjust=show_adjust(t_idx);
break;
case btnUP:
if(t_set == true){
//adjustTime(t_adjust); /* doesn't work when t_adjust>0. weird! */
setTime(now() + t_adjust);
}
else{
handle_main_keys(lcd_key);
}
break;
case btnDOWN:
if(t_set == true){
adjustTime(-t_adjust);
}
else{
handle_main_keys(lcd_key);
}
break;
case btnSELECT:
if(t_set==false){
handle_main_keys(lcd_key);
}
else{
setRTC();
LCD->noCursor();
}
t_set=false;
break;
case btnNONE:
break;
}
}
void godob::run(void)
{
static unsigned long tmin = 0, tenc=0;
unsigned long t0 = millis();
float lst,gmst;
starpos_s mount;
float errf;
if(t0-tmin>200){ /* update LCD every 200ms */
tmin = t0;
if(connect_time>5)Connected=false;
connect_time++;
switch(dstat){
case ds_time:
printtime();
printdate();
show_adjust(t_idx);
if(BTN->poll()){
handle_time_keys(BTN->lastkey());
}
break;
case ds_lst:
LCD->setCursor(0, 0);
LCD->print("LST ");
gmst = AST->get_GMST(now());
lst = gmst + AST->last_longitude();
show_hms(lst);
LCD->setCursor(0, 1);
LCD->print(" LT ");
show_hms( (AST->get_LT(gmst)%86400)*M_PI/43200 );
if(BTN->poll()){
handle_main_keys(BTN->lastkey());
}
break;
case ds_loc:
LCD->setCursor(0, 0);
LCD->print("Lat ");
show_dms(AST->last_latitude());
LCD->setCursor(0, 1);
LCD->print("Long ");
show_dms(AST->last_longitude());
if(BTN->poll()){
handle_main_keys(BTN->lastkey());
}
break;
case ds_horz:
show_altaz();
if(BTN->poll()){
handle_main_keys(BTN->lastkey());
}
break;
case ds_eq:
LCD->setCursor(0, 0);
mount.az = ItoRad(ENCAz->lastpos());
mount.alt = ItoRad(ENCAlt->lastpos());
mount.GMST = AST->get_GMST(now());
AST->horz_to_eq(mount);
LCD->print(" RA ");
show_hms(mount.RA);
LCD->setCursor(0, 1);
LCD->print("Dec");
show_dms(mount.dec);
if(BTN->poll()){
handle_main_keys(BTN->lastkey());
}
break;
case ds_targ:
LCD->setCursor(0, 0);
if(!reqPending){
LCD->print("Designate a star");
}
else{
star[0].GMST=AST->get_GMST(now());
AST->eq_to_horz(star[0]);
LCD->print("AltErr:");
errf = ItoRad(ENCAlt->lastpos()) - star[0].alt;
if(errf>M_PI)errf-=2*M_PI;
if(errf<-M_PI)errf+=2*M_PI;
show_rad(errf);
LCD->setCursor(0, 1);
LCD->print(" AzErr:");
errf = ItoRad(ENCAz->lastpos()) - star[0].az;
if(errf>M_PI)errf-=2*M_PI;
if(errf<-M_PI)errf+=2*M_PI;
show_rad(errf);
}
if(BTN->poll()){
handle_main_keys(BTN->lastkey());
}
break;
case ds_range:
mount.az = ItoRad(ENCAz->lastpos());
mount.alt = ItoRad(ENCAlt->lastpos());
mount.GMST = AST->get_GMST(now());
star[0].GMST = star[1].GMST = mount.GMST;
AST->eq_to_horz(star[1]);
LCD->setCursor(0, 0);
LCD->print("Targ r=");
show_rad(AST->eq_range(star[0], star[1]));
LCD->setCursor(0, 1);
LCD->print(" Now r=");
show_rad(AST->horz_range(mount, star[1]));
if(BTN->poll()){
handle_main_keys(BTN->lastkey());
}
break;
default:
dstat = ds_time;
break;
}/* switch */
}/*tmin*/
if(t0-tenc>1){ /* read encoders every ms */
tenc = 0;
ENCAlt->readpos();
ENCAz->readpos();
}
handle_serial();
}
void tex::show_node_list(ptr p)
{
int n;
if (cur_length() > depth_threshold) {
if (p > null)
print(" []");
return;
}
n = 0;
while (p > null) {
print_ln();
print_str();
incr(n);
if (n > breadth_max) {
print("etc.");
return;
}
if (is_char_node(p)) {
print_font_and_char(p);
} else {
switch (type(p))
{
case HLIST_NODE:
case VLIST_NODE:
case UNSET_NODE:
show_box1(p);
break;
case RULE_NODE:
show_rule(p);
break;
case INS_NODE:
show_insertion(p);
break;
case WHATSIT_NODE:
show_whatsit(p);
break;
case GLUE_NODE:
show_glue(p);
break;
case KERN_NODE:
show_kern(p);
break;
case MATH_NODE:
show_math(p);
break;
case LIGATURE_NODE:
show_ligature(p);
break;
case PENALTY_NODE:
show_penalty(p);
break;
case DISC_NODE:
show_discretionary(p);
break;
case MARK_NODE:
show_mark(p);
break;
case ADJUST_NODE:
show_adjust(p);
break;
case STYLE_NODE:
print_style(subtype(p));
break;
case CHOICE_NODE:
show_choice_node(p);
break;
case INNER_NOAD:
case ORD_NOAD:
case OP_NOAD:
case BIN_NOAD:
case REL_NOAD:
case OPEN_NOAD:
case CLOSE_NOAD:
case PUNCT_NOAD:
case RADICAL_NOAD:
case OVER_NOAD:
case UNDER_NOAD:
case VCENTER_NOAD:
case ACCENT_NOAD:
case LEFT_NOAD:
case RIGHT_NOAD:
show_normal_noad(p);
break;
case FRACTION_NOAD:
show_fraction_noad(p);
break;
default:
print("Unknown node type!");
break;
}
}
p = link(p);
}
}
