The short way:
io_lib:format("~.8B", [Mode band 8#777]).
Mode = 33204 these two will give you respectively:
The long way:
print(Mode band 8#777, ).
print(0, Acc) when length(Acc) =:= 9 ->
print(N, Acc) ->
Char = perm(N band 1, length(Acc) rem 3),
print(N bsr 1, [Char | Acc]).
perm(0, _) ->
perm(1, 0) ->
perm(1, 1) ->
perm(1, 2) ->
This one (function
Mode = 33204 will give you this as result:
If something was unclear for one, I'll try to expound basic things behind the snippets which I have provided.
As @macintux mentioned already, the
33204 in fact is a decimal representation of the octal number 100664. These three lowest octal digits (
664) there is probably what you need, and so we get them with bitwise and (
band) operation with the highest number which fits in three octal digits (
8#777). That's why short way is so short - you just tell erlang to convert
Mode to string as if it was the octal number.
The second representation you've mentioned (like
rw-rw-r--, something that
ls spits out) is easily reproducible from binary representation of the
Mode number. Note that three octal digits will give you exactly nine binary digits (
8#644 = 2#110110100). In fact this is the string
rwxrwxrwx where each element replaced by
- if corresponding digit equals
0. If digit is
1 the element remains untouched.
So there is slightly cleaner approach to achieve this:
print(Mode band 8#777, lists:reverse("rwxrwxrwx"), ).
print(0, , Acc) ->
print(N, [Char0 | Rest], Acc) ->
Char = char(N band 1, Char0),
print(N bsr 1, Rest, [Char | Acc]).
char(0, _) ->
char(1, C) ->
I hope you got the point. Anyway feel free to ask any questions in comments if you doubt.