A way to covert any arbitrary number to engineering notation [L1 ]
# eng - return engineering notation of any given number in a 2 element list as {num eng_unit}
# pico nano micro milli 1 kilo Mega Giga Tera
# use: eng <num> <unit> eg. eng 123.456E6 Hz
# First - scan to check if n is a number, if not then just return with input given {n u}
proc eng {n u} {
if ![scan $n %g res] {return [list $n {} $u]}
if [expr $n>=1E-12 && $n<1E-9] {list [expr $n*1E12] p$u} \
elseif [expr $n>=1E-9 && $n<1E-6] {list [expr $n*1E9] n$u} \
elseif [expr $n>=1E-6 && $n<1E-3] {list [expr $n*1E6] u$u} \
elseif [expr $n>=1E-3 && $n<1] {list [expr $n*1E3] m$u} \
elseif [expr $n>=1 && $n<1E3] {list [format %g $n] $u} \
elseif [expr $n>=1E3 && $n<1E6] {list [expr $n/1E3] k$u} \
elseif [expr $n>=1E6 && $n<1E9] {list [expr $n/1E6] M$u} \
elseif [expr $n>=1E9 && $n<1E12] {list [expr $n/1E9] G$u} \
elseif [expr $n>=1E12 && $n<1E15] {list [expr $n/1E12] T$u} \
else {list [format %g $n] $u}
}
### Example Output
%eng 1.23456E-2 V
12.3456 mV
%eng 209357.209857E5 Hz
20.9357209857 GHz
%eng 0.012e-7 H
1.2 nHCvK (Dec 2006) - is there any way this could be simplified ?