\ dump memories \ usage is \ addr len [ei]dump \ output looks like (for word oriented memories) \ (ATmega32)> 0 10 edump \ 0000 - FFFF D9FF 17D9 2117 0121 5201 0052 DE00 .......!!..RR... \ 0008 - 0CDE 6F0C 3B6F 193B 0019 3200 0B32 140B ...oo;;....22... \ RAM dump is byte oriented: \ 00B0 BD 3E 55 33 5B E6 C4 9B 4A 63 72 20 63 72 20 24 .>U3[...Jcr.cr.$ \ 00C0 62 30 20 32 30 20 64 75 6D 70 20 63 72 20 63 72 b0.20.dump.cr.cr hex : ?ascii ( char -- printable-char ) dup 20 < if drop 2e else dup 7e > if drop 2e then then ; : .2hex s>d <# # # #> type ; : .4hex s>d <# # # # # #> type ; : dump ( addr count -- ) cr 0 do dup .4hex space 10 0 do dup i + c@ .2hex space loop 2 spaces 10 0 do dup i + c@ ?ascii emit loop 10 + cr 10 +loop drop ; : split ( n - c c ) dup $ff and swap $ff00 and $100 / $ff and swap ; : idump ( addr count -- ) cr 0 do dup .4hex space [char] - emit space 8 0 do dup i + @i .4hex space loop 2 spaces 8 0 do dup i + @i split ?ascii emit ?ascii emit loop 8 + cr 8 +loop drop ; : edump ( addr count -- ) cr 0 do dup .4hex space [char] - emit space 08 0 do dup i cells + @e .4hex space loop 2 spaces 08 0 do dup i cells + @e split ?ascii emit ?ascii emit loop 10 + cr 10 +loop drop ;