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In Python 3.x, a string consists of items of Unicode ordinal. (See the quotation from the language reference below.) What is the internal representation of Unicode string? Is it UTF-16?

The items of a string object are Unicode code units. A Unicode code unit is represented by a string object of one item and can hold either a 16-bit or 32-bit value representing a Unicode ordinal (the maximum value for the ordinal is given in sys.maxunicode, and depends on how Python is configured at compile time). Surrogate pairs may be present in the Unicode object, and will be reported as two separate items.

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What does this matter? What problem is solved by knowing internal representations? – S.Lott Dec 3 '09 at 11:09
I feel I learn more by asking the wrong question. – thebat Dec 4 '09 at 20:00
This is a valid question, if for no other reason than knowing what the value of ord('העטלף') will be. – dotancohen Sep 11 '14 at 11:52
up vote 2 down vote accepted

There has been NO CHANGE in Unicode internal representation between Python 2.X and 3.X.

It's definitely NOT UTF-16. UTF-anything is a byte-oriented EXTERNAL representation.

Each code unit (character, surrogate, etc) has been assigned a number from range(0, 2 ** 21). This is called its "ordinal".

Really, the documentation you quoted says it all. Most Python binaries use 16-bit ordinals which restricts you to the Basic Multilingual Plane ("BMP") unless you want to muck about with surrogates (handy if you can't find your hair shirt and your bed of nails is off being de-rusted). For working with the full Unicode repertoire, you'd prefer a "wide build" (32 bits wide).

Briefly, the internal representation in a unicode object is an array of 16-bit unsigned integers, or an array of 32-bit unsigned integers (using only 21 bits).

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"Storing the unicode codeponts in 16 bit integers" is called "UCS-2". Doing the same thing with 32 bit integers is UCS-4. – Joachim Sauer Dec 3 '09 at 9:36
calling something by its right name gives you something to label your new understanding with and sort of.. keep it until you encounter again. We can't talk without words. – u0b34a0f6ae Dec 3 '09 at 22:54
@John: I don't understand what you're trying to say. What is an encoding if it's not a "way of storing Unicode codepoints" (or character information, more generally). And yes, I'm well aware that UTF-16 is the modern alternative to UCS-2, but it's not the same as you say. UTF-16 supports all of Unicode, but UCS-2 only the BMP. – Joachim Sauer Aug 24 '11 at 11:07
"There has been NO CHANGE...". Actually, see PEP 393 (Jan 2010), which spells out the change that subsequently came about, and another answer here "The internal representation will change..." – gwideman Mar 13 '14 at 11:00
This answer is wrong, see Tobu's answer below. PEP 393 was written one month after this answer was given. – dotancohen Aug 24 '14 at 7:23

The internal representation will change in Python 3.3 which implements PEP 393. The new representation will pick one or several of ascii, latin-1, utf-8, utf-16, utf-32, generally trying to get a compact representation.

Implicit conversions into surrogate pairs will only be done when talking to legacy APIs (those only exist on windows, where wchar_t is two bytes); the Python string will be preserved. Here are the release notes.

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Looks to me like PEP 393 says the internal representation is the most compact (given a particular string) of ASCII, Latin-1 (UCS1), UCS2 or UCS4. Ie: specifically NOT utf-8/16/32. The reason: Python must be constant time to index into a string, hence characters must be uniform size, which is the case for UCS, but not for utf representations. – gwideman Mar 13 '14 at 10:58
PEP 393 says it all... – Spacen Jasset Nov 8 '15 at 23:52

Looking at the source code for CPython 3.1.5, in Include/unicodeobject.h:

/* --- Unicode Type ------------------------------------------------------- */

typedef struct {
    Py_ssize_t length;          /* Length of raw Unicode data in buffer */
    Py_UNICODE *str;            /* Raw Unicode buffer */
    long hash;                  /* Hash value; -1 if not set */
    int state;                  /* != 0 if interned. In this case the two
                                 * references from the dictionary to this object
                                 * are *not* counted in ob_refcnt. */
    PyObject *defenc;           /* (Default) Encoded version as Python
                                   string, or NULL; this is used for
                                   implementing the buffer protocol */
} PyUnicodeObject;

The characters are stored as an array of Py_UNICODE. On most platforms, I believe Py_UNICODE is #defined as wchar_t.

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In Python 3.3 and above, the internal representation of the string will depend on the string, and can be any of ascii, latin-1, utf-8, utf-16, utf-32, as noted by Tobu and described in PEP 393.

For previous Pythons, the internal representation depends on the build flags of Python. Python can be built with flag values --enable-unicode=ucs2 or --enable-unicode=ucs4. ucs2 builds do in fact use UTF-16 as their internal representation, and ucs4 builds use UCS-4 / UTF-32.

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My reading of PEP393 is that the internal representation is never utf-8 or any other encoding with inconsistent number of bytes per code-point (symbol), and that the correct set is: Latin-1, UCS-2, or UCS-4. Not sure I have this right. I read that the only utf-8 forms are on input, or in some cases cached output. – BobStein-VisiBone Feb 5 at 18:59

It depends: see here. This is still true for Python 3 as far as internal representation goes.

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I think, Its hard to judge difference between UTF-16, which is just a sequences of 16 bit words, to Python's string object.

And If python is compiled with Unicode=UCS4 option, it will be comparing between UTF-32 and Python string.

So, better consider, they are in different category, although you can transform each others.

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