.TRANTABLE EQUB &03, &8C, &40 \ MOS code EQUB &FE, &A0, &7F EQUB &8C, &43, &FE EQUB &8E, &4F, &FE EQUB &AE, &4F, &FE EQUB &60 \ Internal key numbers &10 to &19: \ EQUB &71, &33 \ Q 3 EQUB &34, &35 \ 4 5 EQUB &84, &38 \ f4 8 EQUB &87, &2D \ f7 - EQUB &5E, &8C \ ^ Left arrow EQUB &84, &EC, &86 \ MOS code EQUB &ED, &60, &00 \ Internal key numbers &20 to &29: \ EQUB &80, &77 \ f0 W EQUB &65, &74 \ E T EQUB &37, &69 \ 7 I EQUB &39, &30 \ 9 0 EQUB &5F, &8E \ _ Down arrow EQUB &6C, &FE, &FD \ MOS code EQUB &6C, &FA, &00 \ Internal key numbers &30 to &39: \ EQUB &31, &32 \ 1 2 EQUB &64, &72 \ D R EQUB &36, &75 \ 6 U EQUB &6F, &70 \ O P EQUB &5B, &8F \ [ Up arrow EQUB &2C, &B7, &D9 \ MOS code EQUB &6C, &28, &02 \ Internal key numbers &40 to &49: \ EQUB &01, &61 \ CAPS LOCK A EQUB &78, &66 \ X F EQUB &79, &6A \ Y J EQUB &6B, &40 \ K @ EQUB &3A, &0D \ : RETURN EQUB &00, &FF, &01 \ MOS code EQUB &02, &09, &0A \ Internal key numbers &50 to &59: \ EQUB &02, &73 \ SHIFT LOCK S EQUB &63, &67 \ C G EQUB &68, &6E \ H N EQUB &6C, &3B \ L ; EQUB &5D, &7F \ ] DELETE EQUB &AC, &44, &02 \ MOS code EQUB &A2, &00, &60 \ Internal key numbers &60 to &69: \ EQUB &00, &7A \ TAB Z EQUB &20, &76 \ Space V EQUB &62, &6D \ B M EQUB &2C, &2E \ , . EQUB &2F, &8B \ / COPY EQUB &AE, &41, &02 \ MOS code EQUB &4C, &AD, &E1 \ Internal key numbers &70 to &79: \ EQUB &1B, &81 \ ESCAPE f1 EQUB &82, &83 \ f2 f3 EQUB &85, &86 \ f5 f6 EQUB &88, &89 \ f8 f9 EQUB &5C, &8D \ \ Right arrow EQUB &6C, &20, &02 \ MOS code EQUB &D0, &EB, &A2 EQUB &08Name: TRANTABLE [View in context] Type: Variable [Compare versions] Category: Keyboard Summary: Translation table from internal key number to ASCII
This is a copy of the keyboard translation table from the BBC Micro's MOS 1.20 ROM. The value at offset n is the lower-case ASCII value of the key with internal key number n, so for example the value at offset &10 is &71, which is 113, or ASCII "q", so internal key number &10 is the key number of the "Q" key. Valid internal key numbers are Binary Coded Decimal (BCD) numbers in the range &10 top &79, so they're in the ranges &10 to &19, then &20 to &29, then &30 to &39, and so on. This means that the other locations - i.e. &1A to &1F, &2A to &2F and so on - aren't used by the lookup table, but the MOS doesn't let this space go to waste; instead, those gaps contain MOS code, which is replicated below as TRANTABLE contains a copy of this entire block of the MOS, not just the table entries. This table allows code running on the parasite to convert internal key numbers into ASCII codes in an efficient way. Without this table we would have to do a lookup from the table in the I/O processor's MOS ROM, which we would have to access from across the Tube, and this would be a lot slower than doing a simple table lookup in the parasite's user RAM.