# bin2hex -- # converts binary to hex number # Arguments: # bin number in binary format # Returns: # hexadecimal number # proc bin2hex bin { ## No sanity checking is done array set t { 0000 0 0001 1 0010 2 0011 3 0100 4 0101 5 0110 6 0111 7 1000 8 1001 9 1010 a 1011 b 1100 c 1101 d 1110 e 1111 f } set diff [expr {4-[string length \$bin]%4}] if {\$diff != 4} { set bin [format %0\${diff}d\$bin 0] } regsub -all .... \$bin {\$t(&)} hex return [subst \$hex] } # hex2bin -- # converts hex number to bin # Arguments: # hex number in hex format # Returns: # binary number (in chars, not binary format) # proc hex2bin hex { set t [list 0 0000 1 0001 2 0010 3 0011 4 0100 \ 5 0101 6 0110 7 0111 8 1000 9 1001 \ a 1010 b 1011 c 1100 d 1101 e 1110 f 1111 \ A 1010 B 1011 C 1100 D 1101 E 1110 F 1111] regsub {^0[xX]} \$hex {} hex return [string map -nocase \$t \$hex] } # hex2bin-alternate -- # converts hex number to bin # Arguments: # hex number in hex format # Returns: # binary number (in chars, not binary format) # proc bin2hex-alternate bin { ## No sanity checking is done set t { 0000 0 0001 1 0010 2 0011 3 0100 4 0101 5 0110 6 0111 7 1000 8 1001 9 1010 a 1011 b 1100 c 1101 d 1110 e 1111 f } set diff [expr {4-[string length \$bin]%4}] if {\$diff != 4} { set bin [format %0\${diff}d\$bin 0] } return [string map \$t \$hex] }