%s\n", pad(temperature(2,$cur_wx[temp_outside]),1,1)); printf("\t\n", pad(temperature(1,$cur_wx[temp_outside]),1,1)); ?> %s\n", pad(temperature(2,$cur_wx[temp_inside]),1,1)); printf("\t\n", pad(temperature(1,$cur_wx[temp_inside]),1,1)); ?>  \n"); printf("\t\n", pad($cur_wx[pressure],1,1)); ?> %s\n", pad($cur_wx[batt_volts] . " volts " . batt_percent($cur_wx[batt_volts]) . " Charge",1,1)); ?> %s\n", pad($cur_wx[wind_dir] . "° " . degrees_cardinal($cur_wx[wind_dir]),1,1)); ?> %s\n", pad(speed_convert(1,$cur_wx[wind_gust]),1,1)); printf("\t\n", pad(speed_convert(2,$cur_wx[wind_gust]),1,1)); ?> %s\n", pad(speed_convert(1,$cur_wx[wind_speed]),1,1)); printf("\t\n", pad(speed_convert(2,$cur_wx[wind_speed]),1,1)); ?> %s\n", pad(rain_in_24(1,$cur_wx[rain],1),1,1)); printf("\t\n", pad(rain_in_24(2,$cur_wx[rain],1),1,1)); ?> %s\n", pad($cur_wx[humidity_1],1,1)); ?> %s\n", pad(datetime_to_string($cur_wx[time_recieved]),1,1)); ?> %s\n", pad(date("g:i A, M j Y"),1,1)); ?> Outside Temperature  %s Inside Temperature  %s  Atmospheric Pressure  %s millibars Battery Voltage  Wind Direction  Wind Gust  %s Wind Speed  %s Rain Fall  %s Relative Humidity  Time of Measurement  Current Local Time