.TT146 LDA QQ8 \ Take the two bytes of the 16-bit value in QQ8 and ORA QQ8+1 \ OR them together to check whether there are any BNE TT63 \ non-zero bits, and if so, jump to TT63 to print the \ distance INC YC \ The distance is zero, so we just move the text cursor RTS \ in YC down by one line and return from the subroutine .TT63 LDA #191 \ Print recursive token 31 ("DISTANCE") followed by JSR TT68 \ a colon LDX QQ8 \ Load (Y X) from QQ8, which contains the 16-bit LDY QQ8+1 \ distance we want to show SEC \ Set the C flag so that the call to pr5 will include a \ decimal point, and display the value as (Y X) / 10 JSR pr5 \ Print (Y X) to 5 digits, including a decimal point LDA #195 \ Set A to the recursive token 35 (" LIGHT YEARS") and \ fall through into TT60 to print the token followed \ by a paragraph breakName: TT146 [Show more] Type: Subroutine Category: Text Summary: Print the distance to the selected system in light yearsContext: See this subroutine in context in the source code Variations: See code variations for this subroutine in the different versions References: This subroutine is called as follows: * TT102 calls TT146 * TT25 calls TT146
If it is non-zero, print the distance to the selected system in light years. If it is zero, just move the text cursor down a line. Specifically, if the distance in QQ8 is non-zero, print token 31 ("DISTANCE"), then a colon, then the distance to one decimal place, then token 35 ("LIGHT YEARS"). If the distance is zero, move the cursor down one line.
Label TT63 is local to this routine
Print a text token followed by a colon
Print a 16-bit number, left-padded to 5 digits, and optional point