In the following:

my $string = "Can you \x{FB01}nd my r\x{E9}sum\x{E9}?\n";

The x{FB01} and x{E9} are code points. And code points are encoded via an encoding scheme to a series of octets.
So the character è which has the codepoint \x{FB01} is part of the string of $string. But how does this work? Are all the characters in this sentence (including the ASCII ones) encoded via UTF-8?
If yes why do I get the following behavior?

my $str = "Some arbitrary string\n";  

if(Encode::is_utf8($str)) {  
        print "YES str IS UTF8!\n";  
else {  
        print "NO str IT IS NOT UTF8\n";   

This prints "NO str IT IS NOT UTF8\n"
Additionally Encode::is_utf8($string) returns true.
In what way are $string and $str different and one is considered UTF-8 and the other not?
And in any case what is the encoding of $str? ASCII? Is this the default for Perl?

  • 2
    Perl doesn’t keep things in an encoding. Its strings are always decoded. Only undecoded strings might be in some encoding. – tchrist Jun 20 '13 at 21:40

In C, a string is a collection of octets, but Perl has two string storage formats:

  • String of 8-bit values.
  • String of 72-bit values. (In practice, limited to 32-bit or 64-bit.)

As such, you don't need to encode code points to store them in a string.

my $s = "\x{2660}\x{2661}";
say length $s;                            # 2
say sprintf '%X', ord substr($s, 0, 1);   # 2660
say sprintf '%X', ord substr($s, 1, 1);   # 2661

(Internally, an extension of UTF-8 called "utf8" is used to store the strings of 72-bit chars. That's not something you should ever have to know except to realize the performance implications, but there are bugs that expose this fact.)

Encode's is_utf8 reports which type of string a scalar contains. It's a function that serves absolutely no use except to debug the bugs I previously mentioned.

  • An 8-bit string can store the value of "abc" (or the string in the OP's $str), so Perl used the more efficient 8-bit (UTF8=0) string format.
  • An 8-bit string can't store the value of "\x{2660}\x{2661}" (or the string in the OP's $string), so Perl used the 72-bit (UTF8=1) string format.

Zero is zero whether it's stored in a floating point number, a signed integer or an unsigned integer. Similarly, the storage format of strings conveys no information about the value of the string.

  • You can store code points in an 8-bit string (if they're small enough) just as easily as a 72-bit string.
  • You can store bytes in a 72-bit string just as easily as an 8-bit string.

In fact, Perl will switch between the two formats at will. For example, if you concatenate $string with $str, you'll get a string in the 72-bit format.

You can alter the storage format of a string with the builtins utf8::downgrade and utf8::upgrade, should you ever need to work around a bug.

utf8::downgrade($s);  # Switch to strings of  8-bit values (UTF8=0).
utf8::upgrade($s);    # Switch to strings of 72-bit values (UTF8=1).

You can see the effect using Devel::Peek.

>perl -MDevel::Peek -e"$s=chr(0x80); utf8::downgrade($s); Dump($s);"
SV = PV(0x7b8a74) at 0x4a84c4
  REFCNT = 1
  PV = 0x7bab9c "\200"\0
  CUR = 1
  LEN = 12

>perl -MDevel::Peek -e"$s=chr(0x80); utf8::upgrade($s); Dump($s);"
SV = PV(0x558a6c) at 0x1cc843c
  REFCNT = 1
  PV = 0x55ab94 "\302\200"\0 [UTF8 "\x{80}"]
  CUR = 2
  LEN = 12
  • substr($s, 0, 1) refers to the first character of the string? So essentially the first character can have a value >255 which means that it is not stored in one byte? Am I starting to understand this? – Cratylus Jun 20 '13 at 20:42
  • Yes, first char. Yes, it can have a value greater than 255. It may be stored using more than one byte depending on the storage format used and the value of the character. – ikegami Jun 20 '13 at 20:43
  • I've added a snippet that shows 0x80 stored as one or two bytes at the bottom of my answer. – ikegami Jun 20 '13 at 20:45
  • What do you mean by may? How can we store a value greater than 255 in a single byte? – Cratylus Jun 20 '13 at 20:47
  • 4
    I feel that thinking of Perl as keeping strings in “some default encoding” internally rather than “in some internal representation” is just going to confuse more people than it helps. It is better to think of strings as being sequences of logical code points. I believe that knowing the exact memory layout of this logical string is helpful to not one person in ten thousand, and harmful to most of the rest. – tchrist Jun 20 '13 at 21:39

The \x{FB01} and \x{E9} are code points.

Not quiet, the numeric values inside the braces are codepoints. The whole \x expression is just a notation for a character. There are several notations for characters, most of them starting with a backslash, but the common one is the simple string literal. You might as well write:

use utf8;
my $string = "Can you find my résumé?\n";
#                     ↑       ↑   ↑

And code points are encoded via an encoding scheme to a series of octets.

True, but so far your string is a string of characters, not a buffer of octets.

But how does this work?

Strings consist of characters. That's just Perl's model. You as a programmer are supposed to deal with it at this level.

Of course, the computer can't, and the internal data structure must have some form of internal encoding. Far too much confusion ensues because "Perl can't keep a secret", the details leak out occasionally.

Are all the characters in this sentence (including the ASCII ones) encoded via UTF-8?

No, the internal encoding is lax UTF8 (no dash). It does not have some of the restrictions that UTF-8 (a.k.a. UTF-8-strict) has.

  1. UTF-8 goes up to 0x10_ffff, UTF8 goes up to 0xffff_ffff_ffff_ffff on my 64-bit system. Codepoints greater than 0xffff_ffff will emit a non-portability warning, though.
  2. In UTF-8 certain codepoints are non-characters or illegal characters. In UTF8, anything goes.


… is an internals function, and is clearly marked as such. You as a programmer are not supposed to peek. But since you want to peek, no one can stop you. Devel::Peek::Dump is a better tool for getting at the internals.

Read http://p3rl.org/UNI for an introduction to the topic of encoding in Perl.

  • @daxim:True, but so far your string is a string of characters, not a buffer of octets. What does this mean? How is a buffer of octets declared in perl? – Cratylus Jun 20 '13 at 20:49
  • I left away that sometimes the internal encoding is not UTF8; you have covered it nicely. – daxim Jun 20 '13 at 20:49
  • Cratylus, you create octets by encoding them from a character string. There are several ways to do so, both explicit and implicit. Read through p3rl.org/UNI to learn all the ways, and when to prefer which. - The other way to get octets is to read them raw from a disk file, standard I/O stream, database, command-line argument, environment variable, socket etc., that is to say to skip the usual decoding step. – daxim Jun 20 '13 at 20:52
  • By octets you mean 8-bit bytes/values? While the equivalent decoded format is 8 or 72 bit values? – Cratylus Jun 20 '13 at 20:58
  • I already linked to the definition of octet in my previous comment attached to this answer. – daxim Jun 20 '13 at 20:59

is_utf8 is a badly-named function that doesn't mean what you think it means or have anything to do with that. The answer to your question is that $string doesn't have an encoding, because it's not encoded. When you call Encode::encode with some encoding, the result of that will be a string that is encoded, and has a known encoding

  • This Encode::is_utf8($string, 1) also returns true and according to perldoc: If CHECK is true, also checks whether STRING contains well-formed UTF-8. BTW I have a big head-ache with perldoc... – Cratylus Jun 20 '13 at 20:39

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