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|
/*
Unicode implementation based on original code by Fredrik Lundh,
modified by Marc-Andre Lemburg <mal@lemburg.com> according to the
Unicode Integration Proposal (see file Misc/unicode.txt).
Major speed upgrades to the method implementations at the Reykjavik
NeedForSpeed sprint, by Fredrik Lundh and Andrew Dalke.
Copyright (c) Corporation for National Research Initiatives.
--------------------------------------------------------------------
The original string type implementation is:
Copyright (c) 1999 by Secret Labs AB
Copyright (c) 1999 by Fredrik Lundh
By obtaining, using, and/or copying this software and/or its
associated documentation, you agree that you have read, understood,
and will comply with the following terms and conditions:
Permission to use, copy, modify, and distribute this software and its
associated documentation for any purpose and without fee is hereby
granted, provided that the above copyright notice appears in all
copies, and that both that copyright notice and this permission notice
appear in supporting documentation, and that the name of Secret Labs
AB or the author not be used in advertising or publicity pertaining to
distribution of the software without specific, written prior
permission.
SECRET LABS AB AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO
THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS. IN NO EVENT SHALL SECRET LABS AB OR THE AUTHOR BE LIABLE FOR
ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
--------------------------------------------------------------------
*/
#define PY_SSIZE_T_CLEAN
#include "Python.h"
#include "ucnhash.h"
#ifdef MS_WINDOWS
#include <windows.h>
#endif
/* Limit for the Unicode object free list */
#define PyUnicode_MAXFREELIST 1024
/* Limit for the Unicode object free list stay alive optimization.
The implementation will keep allocated Unicode memory intact for
all objects on the free list having a size less than this
limit. This reduces malloc() overhead for small Unicode objects.
At worst this will result in PyUnicode_MAXFREELIST *
(sizeof(PyUnicodeObject) + KEEPALIVE_SIZE_LIMIT +
malloc()-overhead) bytes of unused garbage.
Setting the limit to 0 effectively turns the feature off.
Note: This is an experimental feature ! If you get core dumps when
using Unicode objects, turn this feature off.
*/
#define KEEPALIVE_SIZE_LIMIT 9
/* Endianness switches; defaults to little endian */
#ifdef WORDS_BIGENDIAN
# define BYTEORDER_IS_BIG_ENDIAN
#else
# define BYTEORDER_IS_LITTLE_ENDIAN
#endif
/* --- Globals ------------------------------------------------------------
The globals are initialized by the _PyUnicode_Init() API and should
not be used before calling that API.
*/
#ifdef __cplusplus
extern "C" {
#endif
/* This dictionary holds all interned unicode strings. Note that references
to strings in this dictionary are *not* counted in the string's ob_refcnt.
When the interned string reaches a refcnt of 0 the string deallocation
function will delete the reference from this dictionary.
Another way to look at this is that to say that the actual reference
count of a string is: s->ob_refcnt + (s->state ? 2 : 0)
*/
static PyObject *interned;
/* Free list for Unicode objects */
static PyUnicodeObject *free_list;
static int numfree;
/* The empty Unicode object is shared to improve performance. */
static PyUnicodeObject *unicode_empty;
/* Single character Unicode strings in the Latin-1 range are being
shared as well. */
static PyUnicodeObject *unicode_latin1[256];
/* Fast detection of the most frequent whitespace characters */
const unsigned char _Py_ascii_whitespace[] = {
0, 0, 0, 0, 0, 0, 0, 0,
/* case 0x0009: * CHARACTER TABULATION */
/* case 0x000A: * LINE FEED */
/* case 0x000B: * LINE TABULATION */
/* case 0x000C: * FORM FEED */
/* case 0x000D: * CARRIAGE RETURN */
0, 1, 1, 1, 1, 1, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
/* case 0x001C: * FILE SEPARATOR */
/* case 0x001D: * GROUP SEPARATOR */
/* case 0x001E: * RECORD SEPARATOR */
/* case 0x001F: * UNIT SEPARATOR */
0, 0, 0, 0, 1, 1, 1, 1,
/* case 0x0020: * SPACE */
1, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0
};
static PyObject *unicode_encode_call_errorhandler(const char *errors,
PyObject **errorHandler,const char *encoding, const char *reason,
const Py_UNICODE *unicode, Py_ssize_t size, PyObject **exceptionObject,
Py_ssize_t startpos, Py_ssize_t endpos, Py_ssize_t *newpos);
static void raise_encode_exception(PyObject **exceptionObject,
const char *encoding,
const Py_UNICODE *unicode, Py_ssize_t size,
Py_ssize_t startpos, Py_ssize_t endpos,
const char *reason);
/* Same for linebreaks */
static unsigned char ascii_linebreak[] = {
0, 0, 0, 0, 0, 0, 0, 0,
/* 0x000A, * LINE FEED */
/* 0x000B, * LINE TABULATION */
/* 0x000C, * FORM FEED */
/* 0x000D, * CARRIAGE RETURN */
0, 0, 1, 1, 1, 1, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
/* 0x001C, * FILE SEPARATOR */
/* 0x001D, * GROUP SEPARATOR */
/* 0x001E, * RECORD SEPARATOR */
0, 0, 0, 0, 1, 1, 1, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0
};
Py_UNICODE
PyUnicode_GetMax(void)
{
#ifdef Py_UNICODE_WIDE
return 0x10FFFF;
#else
/* This is actually an illegal character, so it should
not be passed to unichr. */
return 0xFFFF;
#endif
}
/* --- Bloom Filters ----------------------------------------------------- */
/* stuff to implement simple "bloom filters" for Unicode characters.
to keep things simple, we use a single bitmask, using the least 5
bits from each unicode characters as the bit index. */
/* the linebreak mask is set up by Unicode_Init below */
#if LONG_BIT >= 128
#define BLOOM_WIDTH 128
#elif LONG_BIT >= 64
#define BLOOM_WIDTH 64
#elif LONG_BIT >= 32
#define BLOOM_WIDTH 32
#else
#error "LONG_BIT is smaller than 32"
#endif
#define BLOOM_MASK unsigned long
static BLOOM_MASK bloom_linebreak;
#define BLOOM_ADD(mask, ch) ((mask |= (1UL << ((ch) & (BLOOM_WIDTH - 1)))))
#define BLOOM(mask, ch) ((mask & (1UL << ((ch) & (BLOOM_WIDTH - 1)))))
#define BLOOM_LINEBREAK(ch) \
((ch) < 128U ? ascii_linebreak[(ch)] : \
(BLOOM(bloom_linebreak, (ch)) && Py_UNICODE_ISLINEBREAK(ch)))
Py_LOCAL_INLINE(BLOOM_MASK) make_bloom_mask(Py_UNICODE* ptr, Py_ssize_t len)
{
/* calculate simple bloom-style bitmask for a given unicode string */
BLOOM_MASK mask;
Py_ssize_t i;
mask = 0;
for (i = 0; i < len; i++)
BLOOM_ADD(mask, ptr[i]);
return mask;
}
Py_LOCAL_INLINE(int) unicode_member(Py_UNICODE chr, Py_UNICODE* set, Py_ssize_t setlen)
{
Py_ssize_t i;
for (i = 0; i < setlen; i++)
if (set[i] == chr)
return 1;
return 0;
}
#define BLOOM_MEMBER(mask, chr, set, setlen) \
BLOOM(mask, chr) && unicode_member(chr, set, setlen)
/* --- Unicode Object ----------------------------------------------------- */
static
int unicode_resize(register PyUnicodeObject *unicode,
Py_ssize_t length)
{
void *oldstr;
/* Shortcut if there's nothing much to do. */
if (unicode->length == length)
goto reset;
/* Resizing shared object (unicode_empty or single character
objects) in-place is not allowed. Use PyUnicode_Resize()
instead ! */
if (unicode == unicode_empty ||
(unicode->length == 1 &&
unicode->str[0] < 256U &&
unicode_latin1[unicode->str[0]] == unicode)) {
PyErr_SetString(PyExc_SystemError,
"can't resize shared str objects");
return -1;
}
/* We allocate one more byte to make sure the string is Ux0000 terminated.
The overallocation is also used by fastsearch, which assumes that it's
safe to look at str[length] (without making any assumptions about what
it contains). */
oldstr = unicode->str;
unicode->str = PyObject_REALLOC(unicode->str,
sizeof(Py_UNICODE) * (length + 1));
if (!unicode->str) {
unicode->str = (Py_UNICODE *)oldstr;
PyErr_NoMemory();
return -1;
}
unicode->str[length] = 0;
unicode->length = length;
reset:
/* Reset the object caches */
if (unicode->defenc) {
Py_CLEAR(unicode->defenc);
}
unicode->hash = -1;
return 0;
}
/* We allocate one more byte to make sure the string is
Ux0000 terminated; some code (e.g. new_identifier)
relies on that.
XXX This allocator could further be enhanced by assuring that the
free list never reduces its size below 1.
*/
static
PyUnicodeObject *_PyUnicode_New(Py_ssize_t length)
{
register PyUnicodeObject *unicode;
/* Optimization for empty strings */
if (length == 0 && unicode_empty != NULL) {
Py_INCREF(unicode_empty);
return unicode_empty;
}
/* Ensure we won't overflow the size. */
if (length > ((PY_SSIZE_T_MAX / sizeof(Py_UNICODE)) - 1)) {
return (PyUnicodeObject *)PyErr_NoMemory();
}
/* Unicode freelist & memory allocation */
if (free_list) {
unicode = free_list;
free_list = *(PyUnicodeObject **)unicode;
numfree--;
if (unicode->str) {
/* Keep-Alive optimization: we only upsize the buffer,
never downsize it. */
if ((unicode->length < length) &&
unicode_resize(unicode, length) < 0) {
PyObject_DEL(unicode->str);
unicode->str = NULL;
}
}
else {
size_t new_size = sizeof(Py_UNICODE) * ((size_t)length + 1);
unicode->str = (Py_UNICODE*) PyObject_MALLOC(new_size);
}
PyObject_INIT(unicode, &PyUnicode_Type);
}
else {
size_t new_size;
unicode = PyObject_New(PyUnicodeObject, &PyUnicode_Type);
if (unicode == NULL)
return NULL;
new_size = sizeof(Py_UNICODE) * ((size_t)length + 1);
unicode->str = (Py_UNICODE*) PyObject_MALLOC(new_size);
}
if (!unicode->str) {
PyErr_NoMemory();
goto onError;
}
/* Initialize the first element to guard against cases where
* the caller fails before initializing str -- unicode_resize()
* reads str[0], and the Keep-Alive optimization can keep memory
* allocated for str alive across a call to unicode_dealloc(unicode).
* We don't want unicode_resize to read uninitialized memory in
* that case.
*/
unicode->str[0] = 0;
unicode->str[length] = 0;
unicode->length = length;
unicode->hash = -1;
unicode->state = 0;
unicode->defenc = NULL;
return unicode;
onError:
/* XXX UNREF/NEWREF interface should be more symmetrical */
_Py_DEC_REFTOTAL;
_Py_ForgetReference((PyObject *)unicode);
PyObject_Del(unicode);
return NULL;
}
static
void unicode_dealloc(register PyUnicodeObject *unicode)
{
switch (PyUnicode_CHECK_INTERNED(unicode)) {
case SSTATE_NOT_INTERNED:
break;
case SSTATE_INTERNED_MORTAL:
/* revive dead object temporarily for DelItem */
Py_REFCNT(unicode) = 3;
if (PyDict_DelItem(interned, (PyObject *)unicode) != 0)
Py_FatalError(
"deletion of interned string failed");
break;
case SSTATE_INTERNED_IMMORTAL:
Py_FatalError("Immortal interned string died.");
default:
Py_FatalError("Inconsistent interned string state.");
}
if (PyUnicode_CheckExact(unicode) &&
numfree < PyUnicode_MAXFREELIST) {
/* Keep-Alive optimization */
if (unicode->length >= KEEPALIVE_SIZE_LIMIT) {
PyObject_DEL(unicode->str);
unicode->str = NULL;
unicode->length = 0;
}
if (unicode->defenc) {
Py_CLEAR(unicode->defenc);
}
/* Add to free list */
*(PyUnicodeObject **)unicode = free_list;
free_list = unicode;
numfree++;
}
else {
PyObject_DEL(unicode->str);
Py_XDECREF(unicode->defenc);
Py_TYPE(unicode)->tp_free((PyObject *)unicode);
}
}
static
int _PyUnicode_Resize(PyUnicodeObject **unicode, Py_ssize_t length)
{
register PyUnicodeObject *v;
/* Argument checks */
if (unicode == NULL) {
PyErr_BadInternalCall();
return -1;
}
v = *unicode;
if (v == NULL || !PyUnicode_Check(v) || Py_REFCNT(v) != 1 || length < 0) {
PyErr_BadInternalCall();
return -1;
}
/* Resizing unicode_empty and single character objects is not
possible since these are being shared. We simply return a fresh
copy with the same Unicode content. */
if (v->length != length &&
(v == unicode_empty || v->length == 1)) {
PyUnicodeObject *w = _PyUnicode_New(length);
if (w == NULL)
return -1;
Py_UNICODE_COPY(w->str, v->str,
length < v->length ? length : v->length);
Py_DECREF(*unicode);
*unicode = w;
return 0;
}
/* Note that we don't have to modify *unicode for unshared Unicode
objects, since we can modify them in-place. */
return unicode_resize(v, length);
}
int PyUnicode_Resize(PyObject **unicode, Py_ssize_t length)
{
return _PyUnicode_Resize((PyUnicodeObject **)unicode, length);
}
PyObject *PyUnicode_FromUnicode(const Py_UNICODE *u,
Py_ssize_t size)
{
PyUnicodeObject *unicode;
/* If the Unicode data is known at construction time, we can apply
some optimizations which share commonly used objects. */
if (u != NULL) {
/* Optimization for empty strings */
if (size == 0 && unicode_empty != NULL) {
Py_INCREF(unicode_empty);
return (PyObject *)unicode_empty;
}
/* Single character Unicode objects in the Latin-1 range are
shared when using this constructor */
if (size == 1 && *u < 256) {
unicode = unicode_latin1[*u];
if (!unicode) {
unicode = _PyUnicode_New(1);
if (!unicode)
return NULL;
unicode->str[0] = *u;
unicode_latin1[*u] = unicode;
}
Py_INCREF(unicode);
return (PyObject *)unicode;
}
}
unicode = _PyUnicode_New(size);
if (!unicode)
return NULL;
/* Copy the Unicode data into the new object */
if (u != NULL)
Py_UNICODE_COPY(unicode->str, u, size);
return (PyObject *)unicode;
}
PyObject *PyUnicode_FromStringAndSize(const char *u, Py_ssize_t size)
{
PyUnicodeObject *unicode;
if (size < 0) {
PyErr_SetString(PyExc_SystemError,
"Negative size passed to PyUnicode_FromStringAndSize");
return NULL;
}
/* If the Unicode data is known at construction time, we can apply
some optimizations which share commonly used objects.
Also, this means the input must be UTF-8, so fall back to the
UTF-8 decoder at the end. */
if (u != NULL) {
/* Optimization for empty strings */
if (size == 0 && unicode_empty != NULL) {
Py_INCREF(unicode_empty);
return (PyObject *)unicode_empty;
}
/* Single characters are shared when using this constructor.
Restrict to ASCII, since the input must be UTF-8. */
if (size == 1 && Py_CHARMASK(*u) < 128) {
unicode = unicode_latin1[Py_CHARMASK(*u)];
if (!unicode) {
unicode = _PyUnicode_New(1);
if (!unicode)
return NULL;
unicode->str[0] = Py_CHARMASK(*u);
unicode_latin1[Py_CHARMASK(*u)] = unicode;
}
Py_INCREF(unicode);
return (PyObject *)unicode;
}
return PyUnicode_DecodeUTF8(u, size, NULL);
}
unicode = _PyUnicode_New(size);
if (!unicode)
return NULL;
return (PyObject *)unicode;
}
PyObject *PyUnicode_FromString(const char *u)
{
size_t size = strlen(u);
if (size > PY_SSIZE_T_MAX) {
PyErr_SetString(PyExc_OverflowError, "input too long");
return NULL;
}
return PyUnicode_FromStringAndSize(u, size);
}
#ifdef HAVE_WCHAR_H
#if (Py_UNICODE_SIZE == 2) && defined(SIZEOF_WCHAR_T) && (SIZEOF_WCHAR_T == 4)
# define CONVERT_WCHAR_TO_SURROGATES
#endif
#ifdef CONVERT_WCHAR_TO_SURROGATES
/* Here sizeof(wchar_t) is 4 but Py_UNICODE_SIZE == 2, so we need
to convert from UTF32 to UTF16. */
PyObject *PyUnicode_FromWideChar(register const wchar_t *w,
Py_ssize_t size)
{
PyUnicodeObject *unicode;
register Py_ssize_t i;
Py_ssize_t alloc;
const wchar_t *orig_w;
if (w == NULL) {
if (size == 0)
return PyUnicode_FromStringAndSize(NULL, 0);
PyErr_BadInternalCall();
return NULL;
}
if (size == -1) {
size = wcslen(w);
}
alloc = size;
orig_w = w;
for (i = size; i > 0; i--) {
if (*w > 0xFFFF)
alloc++;
w++;
}
w = orig_w;
unicode = _PyUnicode_New(alloc);
if (!unicode)
return NULL;
/* Copy the wchar_t data into the new object */
{
register Py_UNICODE *u;
u = PyUnicode_AS_UNICODE(unicode);
for (i = size; i > 0; i--) {
if (*w > 0xFFFF) {
wchar_t ordinal = *w++;
ordinal -= 0x10000;
*u++ = 0xD800 | (ordinal >> 10);
*u++ = 0xDC00 | (ordinal & 0x3FF);
}
else
*u++ = *w++;
}
}
return (PyObject *)unicode;
}
#else
PyObject *PyUnicode_FromWideChar(register const wchar_t *w,
Py_ssize_t size)
{
PyUnicodeObject *unicode;
if (w == NULL) {
if (size == 0)
return PyUnicode_FromStringAndSize(NULL, 0);
PyErr_BadInternalCall();
return NULL;
}
if (size == -1) {
size = wcslen(w);
}
unicode = _PyUnicode_New(size);
if (!unicode)
return NULL;
/* Copy the wchar_t data into the new object */
#if Py_UNICODE_SIZE == SIZEOF_WCHAR_T
memcpy(unicode->str, w, size * sizeof(wchar_t));
#else
{
register Py_UNICODE *u;
register Py_ssize_t i;
u = PyUnicode_AS_UNICODE(unicode);
for (i = size; i > 0; i--)
*u++ = *w++;
}
#endif
return (PyObject *)unicode;
}
#endif /* CONVERT_WCHAR_TO_SURROGATES */
#undef CONVERT_WCHAR_TO_SURROGATES
static void
makefmt(char *fmt, int longflag, int longlongflag, int size_tflag,
int zeropad, int width, int precision, char c)
{
*fmt++ = '%';
if (width) {
if (zeropad)
*fmt++ = '0';
fmt += sprintf(fmt, "%d", width);
}
if (precision)
fmt += sprintf(fmt, ".%d", precision);
if (longflag)
*fmt++ = 'l';
else if (longlongflag) {
/* longlongflag should only ever be nonzero on machines with
HAVE_LONG_LONG defined */
#ifdef HAVE_LONG_LONG
char *f = PY_FORMAT_LONG_LONG;
while (*f)
*fmt++ = *f++;
#else
/* we shouldn't ever get here */
assert(0);
*fmt++ = 'l';
#endif
}
else if (size_tflag) {
char *f = PY_FORMAT_SIZE_T;
while (*f)
*fmt++ = *f++;
}
*fmt++ = c;
*fmt = '\0';
}
#define appendstring(string) {for (copy = string;*copy;) *s++ = *copy++;}
/* size of fixed-size buffer for formatting single arguments */
#define ITEM_BUFFER_LEN 21
/* maximum number of characters required for output of %ld. 21 characters
allows for 64-bit integers (in decimal) and an optional sign. */
#define MAX_LONG_CHARS 21
/* maximum number of characters required for output of %lld.
We need at most ceil(log10(256)*SIZEOF_LONG_LONG) digits,
plus 1 for the sign. 53/22 is an upper bound for log10(256). */
#define MAX_LONG_LONG_CHARS (2 + (SIZEOF_LONG_LONG*53-1) / 22)
PyObject *
PyUnicode_FromFormatV(const char *format, va_list vargs)
{
va_list count;
Py_ssize_t callcount = 0;
PyObject **callresults = NULL;
PyObject **callresult = NULL;
Py_ssize_t n = 0;
int width = 0;
int precision = 0;
int zeropad;
const char* f;
Py_UNICODE *s;
PyObject *string;
/* used by sprintf */
char buffer[ITEM_BUFFER_LEN+1];
/* use abuffer instead of buffer, if we need more space
* (which can happen if there's a format specifier with width). */
char *abuffer = NULL;
char *realbuffer;
Py_ssize_t abuffersize = 0;
char fmt[61]; /* should be enough for %0width.precisionlld */
const char *copy;
Py_VA_COPY(count, vargs);
/* step 1: count the number of %S/%R/%A/%s format specifications
* (we call PyObject_Str()/PyObject_Repr()/PyObject_ASCII()/
* PyUnicode_DecodeUTF8() for these objects once during step 3 and put the
* result in an array) */
for (f = format; *f; f++) {
if (*f == '%') {
if (*(f+1)=='%')
continue;
if (*(f+1)=='S' || *(f+1)=='R' || *(f+1)=='A' || *(f+1) == 'V')
++callcount;
while (Py_ISDIGIT((unsigned)*f))
width = (width*10) + *f++ - '0';
while (*++f && *f != '%' && !Py_ISALPHA((unsigned)*f))
;
if (*f == 's')
++callcount;
}
else if (128 <= (unsigned char)*f) {
PyErr_Format(PyExc_ValueError,
"PyUnicode_FromFormatV() expects an ASCII-encoded format "
"string, got a non-ASCII byte: 0x%02x",
(unsigned char)*f);
return NULL;
}
}
/* step 2: allocate memory for the results of
* PyObject_Str()/PyObject_Repr()/PyUnicode_DecodeUTF8() calls */
if (callcount) {
callresults = PyObject_Malloc(sizeof(PyObject *)*callcount);
if (!callresults) {
PyErr_NoMemory();
return NULL;
}
callresult = callresults;
}
/* step 3: figure out how large a buffer we need */
for (f = format; *f; f++) {
if (*f == '%') {
#ifdef HAVE_LONG_LONG
int longlongflag = 0;
#endif
const char* p = f;
width = 0;
while (Py_ISDIGIT((unsigned)*f))
width = (width*10) + *f++ - '0';
while (*++f && *f != '%' && !Py_ISALPHA((unsigned)*f))
;
/* skip the 'l' or 'z' in {%ld, %zd, %lu, %zu} since
* they don't affect the amount of space we reserve.
*/
if (*f == 'l') {
if (f[1] == 'd' || f[1] == 'u') {
++f;
}
#ifdef HAVE_LONG_LONG
else if (f[1] == 'l' &&
(f[2] == 'd' || f[2] == 'u')) {
longlongflag = 1;
f += 2;
}
#endif
}
else if (*f == 'z' && (f[1] == 'd' || f[1] == 'u')) {
++f;
}
switch (*f) {
case 'c':
{
#ifndef Py_UNICODE_WIDE
int ordinal = va_arg(count, int);
if (ordinal > 0xffff)
n += 2;
else
n++;
#else
(void)va_arg(count, int);
n++;
#endif
break;
}
case '%':
n++;
break;
case 'd': case 'u': case 'i': case 'x':
(void) va_arg(count, int);
#ifdef HAVE_LONG_LONG
if (longlongflag) {
if (width < MAX_LONG_LONG_CHARS)
width = MAX_LONG_LONG_CHARS;
}
else
#endif
/* MAX_LONG_CHARS is enough to hold a 64-bit integer,
including sign. Decimal takes the most space. This
isn't enough for octal. If a width is specified we
need more (which we allocate later). */
if (width < MAX_LONG_CHARS)
width = MAX_LONG_CHARS;
n += width;
/* XXX should allow for large precision here too. */
if (abuffersize < width)
abuffersize = width;
break;
case 's':
{
/* UTF-8 */
const char *s = va_arg(count, const char*);
PyObject *str = PyUnicode_DecodeUTF8(s, strlen(s), "replace");
if (!str)
goto fail;
n += PyUnicode_GET_SIZE(str);
/* Remember the str and switch to the next slot */
*callresult++ = str;
break;
}
case 'U':
{
PyObject *obj = va_arg(count, PyObject *);
assert(obj && PyUnicode_Check(obj));
n += PyUnicode_GET_SIZE(obj);
break;
}
case 'V':
{
PyObject *obj = va_arg(count, PyObject *);
const char *str = va_arg(count, const char *);
PyObject *str_obj;
assert(obj || str);
assert(!obj || PyUnicode_Check(obj));
if (obj) {
n += PyUnicode_GET_SIZE(obj);
*callresult++ = NULL;
}
else {
str_obj = PyUnicode_DecodeUTF8(str, strlen(str), "replace");
if (!str_obj)
goto fail;
n += PyUnicode_GET_SIZE(str_obj);
*callresult++ = str_obj;
}
break;
}
case 'S':
{
PyObject *obj = va_arg(count, PyObject *);
PyObject *str;
assert(obj);
str = PyObject_Str(obj);
if (!str)
goto fail;
n += PyUnicode_GET_SIZE(str);
/* Remember the str and switch to the next slot */
*callresult++ = str;
break;
}
case 'R':
{
PyObject *obj = va_arg(count, PyObject *);
PyObject *repr;
assert(obj);
repr = PyObject_Repr(obj);
if (!repr)
goto fail;
n += PyUnicode_GET_SIZE(repr);
/* Remember the repr and switch to the next slot */
*callresult++ = repr;
break;
}
case 'A':
{
PyObject *obj = va_arg(count, PyObject *);
PyObject *ascii;
assert(obj);
ascii = PyObject_ASCII(obj);
if (!ascii)
goto fail;
n += PyUnicode_GET_SIZE(ascii);
/* Remember the repr and switch to the next slot */
*callresult++ = ascii;
break;
}
case 'p':
(void) va_arg(count, int);
/* maximum 64-bit pointer representation:
* 0xffffffffffffffff
* so 19 characters is enough.
* XXX I count 18 -- what's the extra for?
*/
n += 19;
break;
default:
/* if we stumble upon an unknown
formatting code, copy the rest of
the format string to the output
string. (we cannot just skip the
code, since there's no way to know
what's in the argument list) */
n += strlen(p);
goto expand;
}
} else
n++;
}
expand:
if (abuffersize > ITEM_BUFFER_LEN) {
/* add 1 for sprintf's trailing null byte */
abuffer = PyObject_Malloc(abuffersize + 1);
if (!abuffer) {
PyErr_NoMemory();
goto fail;
}
realbuffer = abuffer;
}
else
realbuffer = buffer;
/* step 4: fill the buffer */
/* Since we've analyzed how much space we need for the worst case,
we don't have to resize the string.
There can be no errors beyond this point. */
string = PyUnicode_FromUnicode(NULL, n);
if (!string)
goto fail;
s = PyUnicode_AS_UNICODE(string);
callresult = callresults;
for (f = format; *f; f++) {
if (*f == '%') {
const char* p = f++;
int longflag = 0;
int longlongflag = 0;
int size_tflag = 0;
zeropad = (*f == '0');
/* parse the width.precision part */
width = 0;
while (Py_ISDIGIT((unsigned)*f))
width = (width*10) + *f++ - '0';
precision = 0;
if (*f == '.') {
f++;
while (Py_ISDIGIT((unsigned)*f))
precision = (precision*10) + *f++ - '0';
}
/* Handle %ld, %lu, %lld and %llu. */
if (*f == 'l') {
if (f[1] == 'd' || f[1] == 'u') {
longflag = 1;
++f;
}
#ifdef HAVE_LONG_LONG
else if (f[1] == 'l' &&
(f[2] == 'd' || f[2] == 'u')) {
longlongflag = 1;
f += 2;
}
#endif
}
/* handle the size_t flag. */
if (*f == 'z' && (f[1] == 'd' || f[1] == 'u')) {
size_tflag = 1;
++f;
}
switch (*f) {
case 'c':
{
int ordinal = va_arg(vargs, int);
#ifndef Py_UNICODE_WIDE
if (ordinal > 0xffff) {
ordinal -= 0x10000;
*s++ = 0xD800 | (ordinal >> 10);
*s++ = 0xDC00 | (ordinal & 0x3FF);
} else
#endif
*s++ = ordinal;
break;
}
case 'd':
makefmt(fmt, longflag, longlongflag, size_tflag, zeropad,
width, precision, 'd');
if (longflag)
sprintf(realbuffer, fmt, va_arg(vargs, long));
#ifdef HAVE_LONG_LONG
else if (longlongflag)
sprintf(realbuffer, fmt, va_arg(vargs, PY_LONG_LONG));
#endif
else if (size_tflag)
sprintf(realbuffer, fmt, va_arg(vargs, Py_ssize_t));
else
sprintf(realbuffer, fmt, va_arg(vargs, int));
appendstring(realbuffer);
break;
case 'u':
makefmt(fmt, longflag, longlongflag, size_tflag, zeropad,
width, precision, 'u');
if (longflag)
sprintf(realbuffer, fmt, va_arg(vargs, unsigned long));
#ifdef HAVE_LONG_LONG
else if (longlongflag)
sprintf(realbuffer, fmt, va_arg(vargs,
unsigned PY_LONG_LONG));
#endif
else if (size_tflag)
sprintf(realbuffer, fmt, va_arg(vargs, size_t));
else
sprintf(realbuffer, fmt, va_arg(vargs, unsigned int));
appendstring(realbuffer);
break;
case 'i':
makefmt(fmt, 0, 0, 0, zeropad, width, precision, 'i');
sprintf(realbuffer, fmt, va_arg(vargs, int));
appendstring(realbuffer);
break;
case 'x':
makefmt(fmt, 0, 0, 0, zeropad, width, precision, 'x');
sprintf(realbuffer, fmt, va_arg(vargs, int));
appendstring(realbuffer);
break;
case 's':
{
/* unused, since we already have the result */
(void) va_arg(vargs, char *);
Py_UNICODE_COPY(s, PyUnicode_AS_UNICODE(*callresult),
PyUnicode_GET_SIZE(*callresult));
s += PyUnicode_GET_SIZE(*callresult);
/* We're done with the unicode()/repr() => forget it */
Py_DECREF(*callresult);
/* switch to next unicode()/repr() result */
++callresult;
break;
}
case 'U':
{
PyObject *obj = va_arg(vargs, PyObject *);
Py_ssize_t size = PyUnicode_GET_SIZE(obj);
Py_UNICODE_COPY(s, PyUnicode_AS_UNICODE(obj), size);
s += size;
break;
}
case 'V':
{
PyObject *obj = va_arg(vargs, PyObject *);
va_arg(vargs, const char *);
if (obj) {
Py_ssize_t size = PyUnicode_GET_SIZE(obj);
Py_UNICODE_COPY(s, PyUnicode_AS_UNICODE(obj), size);
s += size;
} else {
Py_UNICODE_COPY(s, PyUnicode_AS_UNICODE(*callresult),
PyUnicode_GET_SIZE(*callresult));
s += PyUnicode_GET_SIZE(*callresult);
Py_DECREF(*callresult);
}
++callresult;
break;
}
case 'S':
case 'R':
case 'A':
{
Py_UNICODE *ucopy;
Py_ssize_t usize;
Py_ssize_t upos;
/* unused, since we already have the result */
(void) va_arg(vargs, PyObject *);
ucopy = PyUnicode_AS_UNICODE(*callresult);
usize = PyUnicode_GET_SIZE(*callresult);
for (upos = 0; upos<usize;)
*s++ = ucopy[upos++];
/* We're done with the unicode()/repr() => forget it */
Py_DECREF(*callresult);
/* switch to next unicode()/repr() result */
++callresult;
break;
}
case 'p':
sprintf(buffer, "%p", va_arg(vargs, void*));
/* %p is ill-defined: ensure leading 0x. */
if (buffer[1] == 'X')
buffer[1] = 'x';
else if (buffer[1] != 'x') {
memmove(buffer+2, buffer, strlen(buffer)+1);
buffer[0] = '0';
buffer[1] = 'x';
}
appendstring(buffer);
break;
case '%':
*s++ = '%';
break;
default:
appendstring(p);
goto end;
}
}
else
*s++ = *f;
}
end:
if (callresults)
PyObject_Free(callresults);
if (abuffer)
PyObject_Free(abuffer);
PyUnicode_Resize(&string, s - PyUnicode_AS_UNICODE(string));
return string;
fail:
if (callresults) {
PyObject **callresult2 = callresults;
while (callresult2 < callresult) {
Py_XDECREF(*callresult2);
++callresult2;
}
PyObject_Free(callresults);
}
if (abuffer)
PyObject_Free(abuffer);
return NULL;
}
#undef appendstring
PyObject *
PyUnicode_FromFormat(const char *format, ...)
{
PyObject* ret;
va_list vargs;
#ifdef HAVE_STDARG_PROTOTYPES
va_start(vargs, format);
#else
va_start(vargs);
#endif
ret = PyUnicode_FromFormatV(format, vargs);
va_end(vargs);
return ret;
}
/* Helper function for PyUnicode_AsWideChar() and PyUnicode_AsWideCharString():
convert a Unicode object to a wide character string.
- If w is NULL: return the number of wide characters (including the nul
character) required to convert the unicode object. Ignore size argument.
- Otherwise: return the number of wide characters (excluding the nul
character) written into w. Write at most size wide characters (including
the nul character). */
static Py_ssize_t
unicode_aswidechar(PyUnicodeObject *unicode,
wchar_t *w,
Py_ssize_t size)
{
#if Py_UNICODE_SIZE == SIZEOF_WCHAR_T
Py_ssize_t res;
if (w != NULL) {
res = PyUnicode_GET_SIZE(unicode);
if (size > res)
size = res + 1;
else
res = size;
memcpy(w, unicode->str, size * sizeof(wchar_t));
return res;
}
else
return PyUnicode_GET_SIZE(unicode) + 1;
#elif Py_UNICODE_SIZE == 2 && SIZEOF_WCHAR_T == 4
register const Py_UNICODE *u;
const Py_UNICODE *uend;
const wchar_t *worig, *wend;
Py_ssize_t nchar;
u = PyUnicode_AS_UNICODE(unicode);
uend = u + PyUnicode_GET_SIZE(unicode);
if (w != NULL) {
worig = w;
wend = w + size;
while (u != uend && w != wend) {
if (0xD800 <= u[0] && u[0] <= 0xDBFF
&& 0xDC00 <= u[1] && u[1] <= 0xDFFF)
{
*w = (((u[0] & 0x3FF) << 10) | (u[1] & 0x3FF)) + 0x10000;
u += 2;
}
else {
*w = *u;
u++;
}
w++;
}
if (w != wend)
*w = L'\0';
return w - worig;
}
else {
nchar = 1; /* nul character at the end */
while (u != uend) {
if (0xD800 <= u[0] && u[0] <= 0xDBFF
&& 0xDC00 <= u[1] && u[1] <= 0xDFFF)
u += 2;
else
u++;
nchar++;
}
}
return nchar;
#elif Py_UNICODE_SIZE == 4 && SIZEOF_WCHAR_T == 2
register Py_UNICODE *u, *uend, ordinal;
register Py_ssize_t i;
wchar_t *worig, *wend;
Py_ssize_t nchar;
u = PyUnicode_AS_UNICODE(unicode);
uend = u + PyUnicode_GET_SIZE(u);
if (w != NULL) {
worig = w;
wend = w + size;
while (u != uend && w != wend) {
ordinal = *u;
if (ordinal > 0xffff) {
ordinal -= 0x10000;
*w++ = 0xD800 | (ordinal >> 10);
*w++ = 0xDC00 | (ordinal & 0x3FF);
}
else
*w++ = ordinal;
u++;
}
if (w != wend)
*w = 0;
return w - worig;
}
else {
nchar = 1; /* nul character */
while (u != uend) {
if (*u > 0xffff)
nchar += 2;
else
nchar++;
u++;
}
return nchar;
}
#else
# error "unsupported wchar_t and Py_UNICODE sizes, see issue #8670"
#endif
}
Py_ssize_t
PyUnicode_AsWideChar(PyObject *unicode,
wchar_t *w,
Py_ssize_t size)
{
if (unicode == NULL) {
PyErr_BadInternalCall();
return -1;
}
return unicode_aswidechar((PyUnicodeObject*)unicode, w, size);
}
wchar_t*
PyUnicode_AsWideCharString(PyObject *unicode,
Py_ssize_t *size)
{
wchar_t* buffer;
Py_ssize_t buflen;
if (unicode == NULL) {
PyErr_BadInternalCall();
return NULL;
}
buflen = unicode_aswidechar((PyUnicodeObject *)unicode, NULL, 0);
if (PY_SSIZE_T_MAX / sizeof(wchar_t) < buflen) {
PyErr_NoMemory();
return NULL;
}
buffer = PyMem_MALLOC(buflen * sizeof(wchar_t));
if (buffer == NULL) {
PyErr_NoMemory();
return NULL;
}
buflen = unicode_aswidechar((PyUnicodeObject *)unicode, buffer, buflen);
if (size != NULL)
*size = buflen;
return buffer;
}
#endif
PyObject *PyUnicode_FromOrdinal(int ordinal)
{
Py_UNICODE s[2];
if (ordinal < 0 || ordinal > 0x10ffff) {
PyErr_SetString(PyExc_ValueError,
"chr() arg not in range(0x110000)");
return NULL;
}
#ifndef Py_UNICODE_WIDE
if (ordinal > 0xffff) {
ordinal -= 0x10000;
s[0] = 0xD800 | (ordinal >> 10);
s[1] = 0xDC00 | (ordinal & 0x3FF);
return PyUnicode_FromUnicode(s, 2);
}
#endif
s[0] = (Py_UNICODE)ordinal;
return PyUnicode_FromUnicode(s, 1);
}
PyObject *PyUnicode_FromObject(register PyObject *obj)
{
/* XXX Perhaps we should make this API an alias of
PyObject_Str() instead ?! */
if (PyUnicode_CheckExact(obj)) {
Py_INCREF(obj);
return obj;
}
if (PyUnicode_Check(obj)) {
/* For a Unicode subtype that's not a Unicode object,
return a true Unicode object with the same data. */
return PyUnicode_FromUnicode(PyUnicode_AS_UNICODE(obj),
PyUnicode_GET_SIZE(obj));
}
PyErr_Format(PyExc_TypeError,
"Can't convert '%.100s' object to str implicitly",
Py_TYPE(obj)->tp_name);
return NULL;
}
PyObject *PyUnicode_FromEncodedObject(register PyObject *obj,
const char *encoding,
const char *errors)
{
Py_buffer buffer;
PyObject *v;
if (obj == NULL) {
PyErr_BadInternalCall();
return NULL;
}
/* Decoding bytes objects is the most common case and should be fast */
if (PyBytes_Check(obj)) {
if (PyBytes_GET_SIZE(obj) == 0) {
Py_INCREF(unicode_empty);
v = (PyObject *) unicode_empty;
}
else {
v = PyUnicode_Decode(
PyBytes_AS_STRING(obj), PyBytes_GET_SIZE(obj),
encoding, errors);
}
return v;
}
if (PyUnicode_Check(obj)) {
PyErr_SetString(PyExc_TypeError,
"decoding str is not supported");
return NULL;
}
/* Retrieve a bytes buffer view through the PEP 3118 buffer interface */
if (PyObject_GetBuffer(obj, &buffer, PyBUF_SIMPLE) < 0) {
PyErr_Format(PyExc_TypeError,
"coercing to str: need bytes, bytearray "
"or buffer-like object, %.80s found",
Py_TYPE(obj)->tp_name);
return NULL;
}
if (buffer.len == 0) {
Py_INCREF(unicode_empty);
v = (PyObject *) unicode_empty;
}
else
v = PyUnicode_Decode((char*) buffer.buf, buffer.len, encoding, errors);
PyBuffer_Release(&buffer);
return v;
}
/* Convert encoding to lower case and replace '_' with '-' in order to
catch e.g. UTF_8. Return 0 on error (encoding is longer than lower_len-1),
1 on success. */
static int
normalize_encoding(const char *encoding,
char *lower,
size_t lower_len)
{
const char *e;
char *l;
char *l_end;
e = encoding;
l = lower;
l_end = &lower[lower_len - 1];
while (*e) {
if (l == l_end)
return 0;
if (Py_ISUPPER(*e)) {
*l++ = Py_TOLOWER(*e++);
}
else if (*e == '_') {
*l++ = '-';
e++;
}
else {
*l++ = *e++;
}
}
*l = '\0';
return 1;
}
PyObject *PyUnicode_Decode(const char *s,
Py_ssize_t size,
const char *encoding,
const char *errors)
{
PyObject *buffer = NULL, *unicode;
Py_buffer info;
char lower[11]; /* Enough for any encoding shortcut */
if (encoding == NULL)
encoding = PyUnicode_GetDefaultEncoding();
/* Shortcuts for common default encodings */
if (normalize_encoding(encoding, lower, sizeof(lower))) {
if (strcmp(lower, "utf-8") == 0)
return PyUnicode_DecodeUTF8(s, size, errors);
else if ((strcmp(lower, "latin-1") == 0) ||
(strcmp(lower, "iso-8859-1") == 0))
return PyUnicode_DecodeLatin1(s, size, errors);
#if defined(MS_WINDOWS) && defined(HAVE_USABLE_WCHAR_T)
else if (strcmp(lower, "mbcs") == 0)
return PyUnicode_DecodeMBCS(s, size, errors);
#endif
else if (strcmp(lower, "ascii") == 0)
return PyUnicode_DecodeASCII(s, size, errors);
else if (strcmp(lower, "utf-16") == 0)
return PyUnicode_DecodeUTF16(s, size, errors, 0);
else if (strcmp(lower, "utf-32") == 0)
return PyUnicode_DecodeUTF32(s, size, errors, 0);
}
/* Decode via the codec registry */
buffer = NULL;
if (PyBuffer_FillInfo(&info, NULL, (void *)s, size, 1, PyBUF_FULL_RO) < 0)
goto onError;
buffer = PyMemoryView_FromBuffer(&info);
if (buffer == NULL)
goto onError;
unicode = PyCodec_Decode(buffer, encoding, errors);
if (unicode == NULL)
goto onError;
if (!PyUnicode_Check(unicode)) {
PyErr_Format(PyExc_TypeError,
"decoder did not return a str object (type=%.400s)",
Py_TYPE(unicode)->tp_name);
Py_DECREF(unicode);
goto onError;
}
Py_DECREF(buffer);
return unicode;
onError:
Py_XDECREF(buffer);
return NULL;
}
PyObject *PyUnicode_AsDecodedObject(PyObject *unicode,
const char *encoding,
const char *errors)
{
PyObject *v;
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
goto onError;
}
if (encoding == NULL)
encoding = PyUnicode_GetDefaultEncoding();
/* Decode via the codec registry */
v = PyCodec_Decode(unicode, encoding, errors);
if (v == NULL)
goto onError;
return v;
onError:
return NULL;
}
PyObject *PyUnicode_AsDecodedUnicode(PyObject *unicode,
const char *encoding,
const char *errors)
{
PyObject *v;
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
goto onError;
}
if (encoding == NULL)
encoding = PyUnicode_GetDefaultEncoding();
/* Decode via the codec registry */
v = PyCodec_Decode(unicode, encoding, errors);
if (v == NULL)
goto onError;
if (!PyUnicode_Check(v)) {
PyErr_Format(PyExc_TypeError,
"decoder did not return a str object (type=%.400s)",
Py_TYPE(v)->tp_name);
Py_DECREF(v);
goto onError;
}
return v;
onError:
return NULL;
}
PyObject *PyUnicode_Encode(const Py_UNICODE *s,
Py_ssize_t size,
const char *encoding,
const char *errors)
{
PyObject *v, *unicode;
unicode = PyUnicode_FromUnicode(s, size);
if (unicode == NULL)
return NULL;
v = PyUnicode_AsEncodedString(unicode, encoding, errors);
Py_DECREF(unicode);
return v;
}
PyObject *PyUnicode_AsEncodedObject(PyObject *unicode,
const char *encoding,
const char *errors)
{
PyObject *v;
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
goto onError;
}
if (encoding == NULL)
encoding = PyUnicode_GetDefaultEncoding();
/* Encode via the codec registry */
v = PyCodec_Encode(unicode, encoding, errors);
if (v == NULL)
goto onError;
return v;
onError:
return NULL;
}
PyObject *
PyUnicode_EncodeFSDefault(PyObject *unicode)
{
#if defined(MS_WINDOWS) && defined(HAVE_USABLE_WCHAR_T)
return PyUnicode_EncodeMBCS(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
NULL);
#elif defined(__APPLE__)
return PyUnicode_EncodeUTF8(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
"surrogateescape");
#else
PyInterpreterState *interp = PyThreadState_GET()->interp;
/* Bootstrap check: if the filesystem codec is implemented in Python, we
cannot use it to encode and decode filenames before it is loaded. Load
the Python codec requires to encode at least its own filename. Use the C
version of the locale codec until the codec registry is initialized and
the Python codec is loaded.
Py_FileSystemDefaultEncoding is shared between all interpreters, we
cannot only rely on it: check also interp->fscodec_initialized for
subinterpreters. */
if (Py_FileSystemDefaultEncoding && interp->fscodec_initialized) {
return PyUnicode_AsEncodedString(unicode,
Py_FileSystemDefaultEncoding,
"surrogateescape");
}
else {
/* locale encoding with surrogateescape */
wchar_t *wchar;
char *bytes;
PyObject *bytes_obj;
size_t error_pos;
wchar = PyUnicode_AsWideCharString(unicode, NULL);
if (wchar == NULL)
return NULL;
bytes = _Py_wchar2char(wchar, &error_pos);
if (bytes == NULL) {
if (error_pos != (size_t)-1) {
char *errmsg = strerror(errno);
PyObject *exc = NULL;
if (errmsg == NULL)
errmsg = "Py_wchar2char() failed";
raise_encode_exception(&exc,
"filesystemencoding",
PyUnicode_AS_UNICODE(unicode), PyUnicode_GET_SIZE(unicode),
error_pos, error_pos+1,
errmsg);
Py_XDECREF(exc);
}
else
PyErr_NoMemory();
PyMem_Free(wchar);
return NULL;
}
PyMem_Free(wchar);
bytes_obj = PyBytes_FromString(bytes);
PyMem_Free(bytes);
return bytes_obj;
}
#endif
}
PyObject *PyUnicode_AsEncodedString(PyObject *unicode,
const char *encoding,
const char *errors)
{
PyObject *v;
char lower[11]; /* Enough for any encoding shortcut */
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
if (encoding == NULL)
encoding = PyUnicode_GetDefaultEncoding();
/* Shortcuts for common default encodings */
if (normalize_encoding(encoding, lower, sizeof(lower))) {
if (strcmp(lower, "utf-8") == 0)
return PyUnicode_EncodeUTF8(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
errors);
else if ((strcmp(lower, "latin-1") == 0) ||
(strcmp(lower, "iso-8859-1") == 0))
return PyUnicode_EncodeLatin1(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
errors);
#if defined(MS_WINDOWS) && defined(HAVE_USABLE_WCHAR_T)
else if (strcmp(lower, "mbcs") == 0)
return PyUnicode_EncodeMBCS(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
errors);
#endif
else if (strcmp(lower, "ascii") == 0)
return PyUnicode_EncodeASCII(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
errors);
}
/* During bootstrap, we may need to find the encodings
package, to load the file system encoding, and require the
file system encoding in order to load the encodings
package.
Break out of this dependency by assuming that the path to
the encodings module is ASCII-only. XXX could try wcstombs
instead, if the file system encoding is the locale's
encoding. */
if (Py_FileSystemDefaultEncoding &&
strcmp(encoding, Py_FileSystemDefaultEncoding) == 0 &&
!PyThreadState_GET()->interp->codecs_initialized)
return PyUnicode_EncodeASCII(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
errors);
/* Encode via the codec registry */
v = PyCodec_Encode(unicode, encoding, errors);
if (v == NULL)
return NULL;
/* The normal path */
if (PyBytes_Check(v))
return v;
/* If the codec returns a buffer, raise a warning and convert to bytes */
if (PyByteArray_Check(v)) {
int error;
PyObject *b;
error = PyErr_WarnFormat(PyExc_RuntimeWarning, 1,
"encoder %s returned bytearray instead of bytes",
encoding);
if (error) {
Py_DECREF(v);
return NULL;
}
b = PyBytes_FromStringAndSize(PyByteArray_AS_STRING(v), Py_SIZE(v));
Py_DECREF(v);
return b;
}
PyErr_Format(PyExc_TypeError,
"encoder did not return a bytes object (type=%.400s)",
Py_TYPE(v)->tp_name);
Py_DECREF(v);
return NULL;
}
PyObject *PyUnicode_AsEncodedUnicode(PyObject *unicode,
const char *encoding,
const char *errors)
{
PyObject *v;
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
goto onError;
}
if (encoding == NULL)
encoding = PyUnicode_GetDefaultEncoding();
/* Encode via the codec registry */
v = PyCodec_Encode(unicode, encoding, errors);
if (v == NULL)
goto onError;
if (!PyUnicode_Check(v)) {
PyErr_Format(PyExc_TypeError,
"encoder did not return an str object (type=%.400s)",
Py_TYPE(v)->tp_name);
Py_DECREF(v);
goto onError;
}
return v;
onError:
return NULL;
}
PyObject *_PyUnicode_AsDefaultEncodedString(PyObject *unicode,
const char *errors)
{
PyObject *v = ((PyUnicodeObject *)unicode)->defenc;
if (v)
return v;
if (errors != NULL)
Py_FatalError("non-NULL encoding in _PyUnicode_AsDefaultEncodedString");
v = PyUnicode_EncodeUTF8(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
NULL);
if (!v)
return NULL;
((PyUnicodeObject *)unicode)->defenc = v;
return v;
}
PyObject*
PyUnicode_DecodeFSDefault(const char *s) {
Py_ssize_t size = (Py_ssize_t)strlen(s);
return PyUnicode_DecodeFSDefaultAndSize(s, size);
}
PyObject*
PyUnicode_DecodeFSDefaultAndSize(const char *s, Py_ssize_t size)
{
#if defined(MS_WINDOWS) && defined(HAVE_USABLE_WCHAR_T)
return PyUnicode_DecodeMBCS(s, size, NULL);
#elif defined(__APPLE__)
return PyUnicode_DecodeUTF8(s, size, "surrogateescape");
#else
PyInterpreterState *interp = PyThreadState_GET()->interp;
/* Bootstrap check: if the filesystem codec is implemented in Python, we
cannot use it to encode and decode filenames before it is loaded. Load
the Python codec requires to encode at least its own filename. Use the C
version of the locale codec until the codec registry is initialized and
the Python codec is loaded.
Py_FileSystemDefaultEncoding is shared between all interpreters, we
cannot only rely on it: check also interp->fscodec_initialized for
subinterpreters. */
if (Py_FileSystemDefaultEncoding && interp->fscodec_initialized) {
return PyUnicode_Decode(s, size,
Py_FileSystemDefaultEncoding,
"surrogateescape");
}
else {
/* locale encoding with surrogateescape */
wchar_t *wchar;
PyObject *unicode;
size_t len;
if (s[size] != '\0' || size != strlen(s)) {
PyErr_SetString(PyExc_TypeError, "embedded NUL character");
return NULL;
}
wchar = _Py_char2wchar(s, &len);
if (wchar == NULL)
return PyErr_NoMemory();
unicode = PyUnicode_FromWideChar(wchar, len);
PyMem_Free(wchar);
return unicode;
}
#endif
}
int
PyUnicode_FSConverter(PyObject* arg, void* addr)
{
PyObject *output = NULL;
Py_ssize_t size;
void *data;
if (arg == NULL) {
Py_DECREF(*(PyObject**)addr);
return 1;
}
if (PyBytes_Check(arg)) {
output = arg;
Py_INCREF(output);
}
else {
arg = PyUnicode_FromObject(arg);
if (!arg)
return 0;
output = PyUnicode_EncodeFSDefault(arg);
Py_DECREF(arg);
if (!output)
return 0;
if (!PyBytes_Check(output)) {
Py_DECREF(output);
PyErr_SetString(PyExc_TypeError, "encoder failed to return bytes");
return 0;
}
}
size = PyBytes_GET_SIZE(output);
data = PyBytes_AS_STRING(output);
if (size != strlen(data)) {
PyErr_SetString(PyExc_TypeError, "embedded NUL character");
Py_DECREF(output);
return 0;
}
*(PyObject**)addr = output;
return Py_CLEANUP_SUPPORTED;
}
int
PyUnicode_FSDecoder(PyObject* arg, void* addr)
{
PyObject *output = NULL;
Py_ssize_t size;
void *data;
if (arg == NULL) {
Py_DECREF(*(PyObject**)addr);
return 1;
}
if (PyUnicode_Check(arg)) {
output = arg;
Py_INCREF(output);
}
else {
arg = PyBytes_FromObject(arg);
if (!arg)
return 0;
output = PyUnicode_DecodeFSDefaultAndSize(PyBytes_AS_STRING(arg),
PyBytes_GET_SIZE(arg));
Py_DECREF(arg);
if (!output)
return 0;
if (!PyUnicode_Check(output)) {
Py_DECREF(output);
PyErr_SetString(PyExc_TypeError, "decoder failed to return unicode");
return 0;
}
}
size = PyUnicode_GET_SIZE(output);
data = PyUnicode_AS_UNICODE(output);
if (size != Py_UNICODE_strlen(data)) {
PyErr_SetString(PyExc_TypeError, "embedded NUL character");
Py_DECREF(output);
return 0;
}
*(PyObject**)addr = output;
return Py_CLEANUP_SUPPORTED;
}
char*
_PyUnicode_AsStringAndSize(PyObject *unicode, Py_ssize_t *psize)
{
PyObject *bytes;
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
bytes = _PyUnicode_AsDefaultEncodedString(unicode, NULL);
if (bytes == NULL)
return NULL;
if (psize != NULL)
*psize = PyBytes_GET_SIZE(bytes);
return PyBytes_AS_STRING(bytes);
}
char*
_PyUnicode_AsString(PyObject *unicode)
{
return _PyUnicode_AsStringAndSize(unicode, NULL);
}
Py_UNICODE *PyUnicode_AsUnicode(PyObject *unicode)
{
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
goto onError;
}
return PyUnicode_AS_UNICODE(unicode);
onError:
return NULL;
}
Py_ssize_t PyUnicode_GetSize(PyObject *unicode)
{
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
goto onError;
}
return PyUnicode_GET_SIZE(unicode);
onError:
return -1;
}
const char *PyUnicode_GetDefaultEncoding(void)
{
return "utf-8";
}
/* create or adjust a UnicodeDecodeError */
static void
make_decode_exception(PyObject **exceptionObject,
const char *encoding,
const char *input, Py_ssize_t length,
Py_ssize_t startpos, Py_ssize_t endpos,
const char *reason)
{
if (*exceptionObject == NULL) {
*exceptionObject = PyUnicodeDecodeError_Create(
encoding, input, length, startpos, endpos, reason);
}
else {
if (PyUnicodeDecodeError_SetStart(*exceptionObject, startpos))
goto onError;
if (PyUnicodeDecodeError_SetEnd(*exceptionObject, endpos))
goto onError;
if (PyUnicodeDecodeError_SetReason(*exceptionObject, reason))
goto onError;
}
return;
onError:
Py_DECREF(*exceptionObject);
*exceptionObject = NULL;
}
/* error handling callback helper:
build arguments, call the callback and check the arguments,
if no exception occurred, copy the replacement to the output
and adjust various state variables.
return 0 on success, -1 on error
*/
static
int unicode_decode_call_errorhandler(const char *errors, PyObject **errorHandler,
const char *encoding, const char *reason,
const char **input, const char **inend, Py_ssize_t *startinpos,
Py_ssize_t *endinpos, PyObject **exceptionObject, const char **inptr,
PyUnicodeObject **output, Py_ssize_t *outpos, Py_UNICODE **outptr)
{
static char *argparse = "O!n;decoding error handler must return (str, int) tuple";
PyObject *restuple = NULL;
PyObject *repunicode = NULL;
Py_ssize_t outsize = PyUnicode_GET_SIZE(*output);
Py_ssize_t insize;
Py_ssize_t requiredsize;
Py_ssize_t newpos;
Py_UNICODE *repptr;
PyObject *inputobj = NULL;
Py_ssize_t repsize;
int res = -1;
if (*errorHandler == NULL) {
*errorHandler = PyCodec_LookupError(errors);
if (*errorHandler == NULL)
goto onError;
}
make_decode_exception(exceptionObject,
encoding,
*input, *inend - *input,
*startinpos, *endinpos,
reason);
if (*exceptionObject == NULL)
goto onError;
restuple = PyObject_CallFunctionObjArgs(*errorHandler, *exceptionObject, NULL);
if (restuple == NULL)
goto onError;
if (!PyTuple_Check(restuple)) {
PyErr_SetString(PyExc_TypeError, &argparse[4]);
goto onError;
}
if (!PyArg_ParseTuple(restuple, argparse, &PyUnicode_Type, &repunicode, &newpos))
goto onError;
/* Copy back the bytes variables, which might have been modified by the
callback */
inputobj = PyUnicodeDecodeError_GetObject(*exceptionObject);
if (!inputobj)
goto onError;
if (!PyBytes_Check(inputobj)) {
PyErr_Format(PyExc_TypeError, "exception attribute object must be bytes");
}
*input = PyBytes_AS_STRING(inputobj);
insize = PyBytes_GET_SIZE(inputobj);
*inend = *input + insize;
/* we can DECREF safely, as the exception has another reference,
so the object won't go away. */
Py_DECREF(inputobj);
if (newpos<0)
newpos = insize+newpos;
if (newpos<0 || newpos>insize) {
PyErr_Format(PyExc_IndexError, "position %zd from error handler out of bounds", newpos);
goto onError;
}
/* need more space? (at least enough for what we
have+the replacement+the rest of the string (starting
at the new input position), so we won't have to check space
when there are no errors in the rest of the string) */
repptr = PyUnicode_AS_UNICODE(repunicode);
repsize = PyUnicode_GET_SIZE(repunicode);
requiredsize = *outpos + repsize + insize-newpos;
if (requiredsize > outsize) {
if (requiredsize<2*outsize)
requiredsize = 2*outsize;
if (_PyUnicode_Resize(output, requiredsize) < 0)
goto onError;
*outptr = PyUnicode_AS_UNICODE(*output) + *outpos;
}
*endinpos = newpos;
*inptr = *input + newpos;
Py_UNICODE_COPY(*outptr, repptr, repsize);
*outptr += repsize;
*outpos += repsize;
/* we made it! */
res = 0;
onError:
Py_XDECREF(restuple);
return res;
}
/* --- UTF-7 Codec -------------------------------------------------------- */
/* See RFC2152 for details. We encode conservatively and decode liberally. */
/* Three simple macros defining base-64. */
/* Is c a base-64 character? */
#define IS_BASE64(c) \
(((c) >= 'A' && (c) <= 'Z') || \
((c) >= 'a' && (c) <= 'z') || \
((c) >= '0' && (c) <= '9') || \
(c) == '+' || (c) == '/')
/* given that c is a base-64 character, what is its base-64 value? */
#define FROM_BASE64(c) \
(((c) >= 'A' && (c) <= 'Z') ? (c) - 'A' : \
((c) >= 'a' && (c) <= 'z') ? (c) - 'a' + 26 : \
((c) >= '0' && (c) <= '9') ? (c) - '0' + 52 : \
(c) == '+' ? 62 : 63)
/* What is the base-64 character of the bottom 6 bits of n? */
#define TO_BASE64(n) \
("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"[(n) & 0x3f])
/* DECODE_DIRECT: this byte encountered in a UTF-7 string should be
* decoded as itself. We are permissive on decoding; the only ASCII
* byte not decoding to itself is the + which begins a base64
* string. */
#define DECODE_DIRECT(c) \
((c) <= 127 && (c) != '+')
/* The UTF-7 encoder treats ASCII characters differently according to
* whether they are Set D, Set O, Whitespace, or special (i.e. none of
* the above). See RFC2152. This array identifies these different
* sets:
* 0 : "Set D"
* alphanumeric and '(),-./:?
* 1 : "Set O"
* !"#$%&*;<=>@[]^_`{|}
* 2 : "whitespace"
* ht nl cr sp
* 3 : special (must be base64 encoded)
* everything else (i.e. +\~ and non-printing codes 0-8 11-12 14-31 127)
*/
static
char utf7_category[128] = {
/* nul soh stx etx eot enq ack bel bs ht nl vt np cr so si */
3, 3, 3, 3, 3, 3, 3, 3, 3, 2, 2, 3, 3, 2, 3, 3,
/* dle dc1 dc2 dc3 dc4 nak syn etb can em sub esc fs gs rs us */
3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3,
/* sp ! " # $ % & ' ( ) * + , - . / */
2, 1, 1, 1, 1, 1, 1, 0, 0, 0, 1, 3, 0, 0, 0, 0,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 0,
/* @ A B C D E F G H I J K L M N O */
1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 3, 1, 1, 1,
/* ` a b c d e f g h i j k l m n o */
1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
/* p q r s t u v w x y z { | } ~ del */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 3, 3,
};
/* ENCODE_DIRECT: this character should be encoded as itself. The
* answer depends on whether we are encoding set O as itself, and also
* on whether we are encoding whitespace as itself. RFC2152 makes it
* clear that the answers to these questions vary between
* applications, so this code needs to be flexible. */
#define ENCODE_DIRECT(c, directO, directWS) \
((c) < 128 && (c) > 0 && \
((utf7_category[(c)] == 0) || \
(directWS && (utf7_category[(c)] == 2)) || \
(directO && (utf7_category[(c)] == 1))))
PyObject *PyUnicode_DecodeUTF7(const char *s,
Py_ssize_t size,
const char *errors)
{
return PyUnicode_DecodeUTF7Stateful(s, size, errors, NULL);
}
/* The decoder. The only state we preserve is our read position,
* i.e. how many characters we have consumed. So if we end in the
* middle of a shift sequence we have to back off the read position
* and the output to the beginning of the sequence, otherwise we lose
* all the shift state (seen bits, number of bits seen, high
* surrogate). */
PyObject *PyUnicode_DecodeUTF7Stateful(const char *s,
Py_ssize_t size,
const char *errors,
Py_ssize_t *consumed)
{
const char *starts = s;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
const char *e;
PyUnicodeObject *unicode;
Py_UNICODE *p;
const char *errmsg = "";
int inShift = 0;
Py_UNICODE *shiftOutStart;
unsigned int base64bits = 0;
unsigned long base64buffer = 0;
Py_UNICODE surrogate = 0;
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
unicode = _PyUnicode_New(size);
if (!unicode)
return NULL;
if (size == 0) {
if (consumed)
*consumed = 0;
return (PyObject *)unicode;
}
p = unicode->str;
shiftOutStart = p;
e = s + size;
while (s < e) {
Py_UNICODE ch;
restart:
ch = (unsigned char) *s;
if (inShift) { /* in a base-64 section */
if (IS_BASE64(ch)) { /* consume a base-64 character */
base64buffer = (base64buffer << 6) | FROM_BASE64(ch);
base64bits += 6;
s++;
if (base64bits >= 16) {
/* we have enough bits for a UTF-16 value */
Py_UNICODE outCh = (Py_UNICODE)
(base64buffer >> (base64bits-16));
base64bits -= 16;
base64buffer &= (1 << base64bits) - 1; /* clear high bits */
if (surrogate) {
/* expecting a second surrogate */
if (outCh >= 0xDC00 && outCh <= 0xDFFF) {
#ifdef Py_UNICODE_WIDE
*p++ = (((surrogate & 0x3FF)<<10)
| (outCh & 0x3FF)) + 0x10000;
#else
*p++ = surrogate;
*p++ = outCh;
#endif
surrogate = 0;
}
else {
surrogate = 0;
errmsg = "second surrogate missing";
goto utf7Error;
}
}
else if (outCh >= 0xD800 && outCh <= 0xDBFF) {
/* first surrogate */
surrogate = outCh;
}
else if (outCh >= 0xDC00 && outCh <= 0xDFFF) {
errmsg = "unexpected second surrogate";
goto utf7Error;
}
else {
*p++ = outCh;
}
}
}
else { /* now leaving a base-64 section */
inShift = 0;
s++;
if (surrogate) {
errmsg = "second surrogate missing at end of shift sequence";
goto utf7Error;
}
if (base64bits > 0) { /* left-over bits */
if (base64bits >= 6) {
/* We've seen at least one base-64 character */
errmsg = "partial character in shift sequence";
goto utf7Error;
}
else {
/* Some bits remain; they should be zero */
if (base64buffer != 0) {
errmsg = "non-zero padding bits in shift sequence";
goto utf7Error;
}
}
}
if (ch != '-') {
/* '-' is absorbed; other terminating
characters are preserved */
*p++ = ch;
}
}
}
else if ( ch == '+' ) {
startinpos = s-starts;
s++; /* consume '+' */
if (s < e && *s == '-') { /* '+-' encodes '+' */
s++;
*p++ = '+';
}
else { /* begin base64-encoded section */
inShift = 1;
shiftOutStart = p;
base64bits = 0;
}
}
else if (DECODE_DIRECT(ch)) { /* character decodes as itself */
*p++ = ch;
s++;
}
else {
startinpos = s-starts;
s++;
errmsg = "unexpected special character";
goto utf7Error;
}
continue;
utf7Error:
outpos = p-PyUnicode_AS_UNICODE(unicode);
endinpos = s-starts;
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"utf7", errmsg,
&starts, &e, &startinpos, &endinpos, &exc, &s,
&unicode, &outpos, &p))
goto onError;
}
/* end of string */
if (inShift && !consumed) { /* in shift sequence, no more to follow */
/* if we're in an inconsistent state, that's an error */
if (surrogate ||
(base64bits >= 6) ||
(base64bits > 0 && base64buffer != 0)) {
outpos = p-PyUnicode_AS_UNICODE(unicode);
endinpos = size;
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"utf7", "unterminated shift sequence",
&starts, &e, &startinpos, &endinpos, &exc, &s,
&unicode, &outpos, &p))
goto onError;
if (s < e)
goto restart;
}
}
/* return state */
if (consumed) {
if (inShift) {
p = shiftOutStart; /* back off output */
*consumed = startinpos;
}
else {
*consumed = s-starts;
}
}
if (_PyUnicode_Resize(&unicode, p - PyUnicode_AS_UNICODE(unicode)) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)unicode;
onError:
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
Py_DECREF(unicode);
return NULL;
}
PyObject *PyUnicode_EncodeUTF7(const Py_UNICODE *s,
Py_ssize_t size,
int base64SetO,
int base64WhiteSpace,
const char *errors)
{
PyObject *v;
/* It might be possible to tighten this worst case */
Py_ssize_t allocated = 8 * size;
int inShift = 0;
Py_ssize_t i = 0;
unsigned int base64bits = 0;
unsigned long base64buffer = 0;
char * out;
char * start;
if (size == 0)
return PyBytes_FromStringAndSize(NULL, 0);
if (allocated / 8 != size)
return PyErr_NoMemory();
v = PyBytes_FromStringAndSize(NULL, allocated);
if (v == NULL)
return NULL;
start = out = PyBytes_AS_STRING(v);
for (;i < size; ++i) {
Py_UNICODE ch = s[i];
if (inShift) {
if (ENCODE_DIRECT(ch, !base64SetO, !base64WhiteSpace)) {
/* shifting out */
if (base64bits) { /* output remaining bits */
*out++ = TO_BASE64(base64buffer << (6-base64bits));
base64buffer = 0;
base64bits = 0;
}
inShift = 0;
/* Characters not in the BASE64 set implicitly unshift the sequence
so no '-' is required, except if the character is itself a '-' */
if (IS_BASE64(ch) || ch == '-') {
*out++ = '-';
}
*out++ = (char) ch;
}
else {
goto encode_char;
}
}
else { /* not in a shift sequence */
if (ch == '+') {
*out++ = '+';
*out++ = '-';
}
else if (ENCODE_DIRECT(ch, !base64SetO, !base64WhiteSpace)) {
*out++ = (char) ch;
}
else {
*out++ = '+';
inShift = 1;
goto encode_char;
}
}
continue;
encode_char:
#ifdef Py_UNICODE_WIDE
if (ch >= 0x10000) {
/* code first surrogate */
base64bits += 16;
base64buffer = (base64buffer << 16) | 0xd800 | ((ch-0x10000) >> 10);
while (base64bits >= 6) {
*out++ = TO_BASE64(base64buffer >> (base64bits-6));
base64bits -= 6;
}
/* prepare second surrogate */
ch = 0xDC00 | ((ch-0x10000) & 0x3FF);
}
#endif
base64bits += 16;
base64buffer = (base64buffer << 16) | ch;
while (base64bits >= 6) {
*out++ = TO_BASE64(base64buffer >> (base64bits-6));
base64bits -= 6;
}
}
if (base64bits)
*out++= TO_BASE64(base64buffer << (6-base64bits) );
if (inShift)
*out++ = '-';
if (_PyBytes_Resize(&v, out - start) < 0)
return NULL;
return v;
}
#undef IS_BASE64
#undef FROM_BASE64
#undef TO_BASE64
#undef DECODE_DIRECT
#undef ENCODE_DIRECT
/* --- UTF-8 Codec -------------------------------------------------------- */
static
char utf8_code_length[256] = {
/* Map UTF-8 encoded prefix byte to sequence length. Zero means
illegal prefix. See RFC 3629 for details */
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 00-0F */
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 70-7F */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 80-8F */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* B0-BF */
0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, /* C0-C1 + C2-CF */
2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, /* D0-DF */
3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, /* E0-EF */
4, 4, 4, 4, 4, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 /* F0-F4 + F5-FF */
};
PyObject *PyUnicode_DecodeUTF8(const char *s,
Py_ssize_t size,
const char *errors)
{
return PyUnicode_DecodeUTF8Stateful(s, size, errors, NULL);
}
/* Mask to check or force alignment of a pointer to C 'long' boundaries */
#define LONG_PTR_MASK (size_t) (SIZEOF_LONG - 1)
/* Mask to quickly check whether a C 'long' contains a
non-ASCII, UTF8-encoded char. */
#if (SIZEOF_LONG == 8)
# define ASCII_CHAR_MASK 0x8080808080808080L
#elif (SIZEOF_LONG == 4)
# define ASCII_CHAR_MASK 0x80808080L
#else
# error C 'long' size should be either 4 or 8!
#endif
PyObject *PyUnicode_DecodeUTF8Stateful(const char *s,
Py_ssize_t size,
const char *errors,
Py_ssize_t *consumed)
{
const char *starts = s;
int n;
int k;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
const char *e, *aligned_end;
PyUnicodeObject *unicode;
Py_UNICODE *p;
const char *errmsg = "";
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
/* Note: size will always be longer than the resulting Unicode
character count */
unicode = _PyUnicode_New(size);
if (!unicode)
return NULL;
if (size == 0) {
if (consumed)
*consumed = 0;
return (PyObject *)unicode;
}
/* Unpack UTF-8 encoded data */
p = unicode->str;
e = s + size;
aligned_end = (const char *) ((size_t) e & ~LONG_PTR_MASK);
while (s < e) {
Py_UCS4 ch = (unsigned char)*s;
if (ch < 0x80) {
/* Fast path for runs of ASCII characters. Given that common UTF-8
input will consist of an overwhelming majority of ASCII
characters, we try to optimize for this case by checking
as many characters as a C 'long' can contain.
First, check if we can do an aligned read, as most CPUs have
a penalty for unaligned reads.
*/
if (!((size_t) s & LONG_PTR_MASK)) {
/* Help register allocation */
register const char *_s = s;
register Py_UNICODE *_p = p;
while (_s < aligned_end) {
/* Read a whole long at a time (either 4 or 8 bytes),
and do a fast unrolled copy if it only contains ASCII
characters. */
unsigned long data = *(unsigned long *) _s;
if (data & ASCII_CHAR_MASK)
break;
_p[0] = (unsigned char) _s[0];
_p[1] = (unsigned char) _s[1];
_p[2] = (unsigned char) _s[2];
_p[3] = (unsigned char) _s[3];
#if (SIZEOF_LONG == 8)
_p[4] = (unsigned char) _s[4];
_p[5] = (unsigned char) _s[5];
_p[6] = (unsigned char) _s[6];
_p[7] = (unsigned char) _s[7];
#endif
_s += SIZEOF_LONG;
_p += SIZEOF_LONG;
}
s = _s;
p = _p;
if (s == e)
break;
ch = (unsigned char)*s;
}
}
if (ch < 0x80) {
*p++ = (Py_UNICODE)ch;
s++;
continue;
}
n = utf8_code_length[ch];
if (s + n > e) {
if (consumed)
break;
else {
errmsg = "unexpected end of data";
startinpos = s-starts;
endinpos = startinpos+1;
for (k=1; (k < size-startinpos) && ((s[k]&0xC0) == 0x80); k++)
endinpos++;
goto utf8Error;
}
}
switch (n) {
case 0:
errmsg = "invalid start byte";
startinpos = s-starts;
endinpos = startinpos+1;
goto utf8Error;
case 1:
errmsg = "internal error";
startinpos = s-starts;
endinpos = startinpos+1;
goto utf8Error;
case 2:
if ((s[1] & 0xc0) != 0x80) {
errmsg = "invalid continuation byte";
startinpos = s-starts;
endinpos = startinpos + 1;
goto utf8Error;
}
ch = ((s[0] & 0x1f) << 6) + (s[1] & 0x3f);
assert ((ch > 0x007F) && (ch <= 0x07FF));
*p++ = (Py_UNICODE)ch;
break;
case 3:
/* Decoding UTF-8 sequences in range \xed\xa0\x80-\xed\xbf\xbf
will result in surrogates in range d800-dfff. Surrogates are
not valid UTF-8 so they are rejected.
See http://www.unicode.org/versions/Unicode5.2.0/ch03.pdf
(table 3-7) and http://www.rfc-editor.org/rfc/rfc3629.txt */
if ((s[1] & 0xc0) != 0x80 ||
(s[2] & 0xc0) != 0x80 ||
((unsigned char)s[0] == 0xE0 &&
(unsigned char)s[1] < 0xA0) ||
((unsigned char)s[0] == 0xED &&
(unsigned char)s[1] > 0x9F)) {
errmsg = "invalid continuation byte";
startinpos = s-starts;
endinpos = startinpos + 1;
/* if s[1] first two bits are 1 and 0, then the invalid
continuation byte is s[2], so increment endinpos by 1,
if not, s[1] is invalid and endinpos doesn't need to
be incremented. */
if ((s[1] & 0xC0) == 0x80)
endinpos++;
goto utf8Error;
}
ch = ((s[0] & 0x0f) << 12) + ((s[1] & 0x3f) << 6) + (s[2] & 0x3f);
assert ((ch > 0x07FF) && (ch <= 0xFFFF));
*p++ = (Py_UNICODE)ch;
break;
case 4:
if ((s[1] & 0xc0) != 0x80 ||
(s[2] & 0xc0) != 0x80 ||
(s[3] & 0xc0) != 0x80 ||
((unsigned char)s[0] == 0xF0 &&
(unsigned char)s[1] < 0x90) ||
((unsigned char)s[0] == 0xF4 &&
(unsigned char)s[1] > 0x8F)) {
errmsg = "invalid continuation byte";
startinpos = s-starts;
endinpos = startinpos + 1;
if ((s[1] & 0xC0) == 0x80) {
endinpos++;
if ((s[2] & 0xC0) == 0x80)
endinpos++;
}
goto utf8Error;
}
ch = ((s[0] & 0x7) << 18) + ((s[1] & 0x3f) << 12) +
((s[2] & 0x3f) << 6) + (s[3] & 0x3f);
assert ((ch > 0xFFFF) && (ch <= 0x10ffff));
#ifdef Py_UNICODE_WIDE
*p++ = (Py_UNICODE)ch;
#else
/* compute and append the two surrogates: */
/* translate from 10000..10FFFF to 0..FFFF */
ch -= 0x10000;
/* high surrogate = top 10 bits added to D800 */
*p++ = (Py_UNICODE)(0xD800 + (ch >> 10));
/* low surrogate = bottom 10 bits added to DC00 */
*p++ = (Py_UNICODE)(0xDC00 + (ch & 0x03FF));
#endif
break;
}
s += n;
continue;
utf8Error:
outpos = p-PyUnicode_AS_UNICODE(unicode);
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"utf8", errmsg,
&starts, &e, &startinpos, &endinpos, &exc, &s,
&unicode, &outpos, &p))
goto onError;
aligned_end = (const char *) ((size_t) e & ~LONG_PTR_MASK);
}
if (consumed)
*consumed = s-starts;
/* Adjust length */
if (_PyUnicode_Resize(&unicode, p - unicode->str) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)unicode;
onError:
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
Py_DECREF(unicode);
return NULL;
}
#undef ASCII_CHAR_MASK
#ifdef __APPLE__
/* Simplified UTF-8 decoder using surrogateescape error handler,
used to decode the command line arguments on Mac OS X. */
wchar_t*
_Py_DecodeUTF8_surrogateescape(const char *s, Py_ssize_t size)
{
int n;
const char *e;
wchar_t *unicode, *p;
/* Note: size will always be longer than the resulting Unicode
character count */
if (PY_SSIZE_T_MAX / sizeof(wchar_t) < (size + 1)) {
PyErr_NoMemory();
return NULL;
}
unicode = PyMem_Malloc((size + 1) * sizeof(wchar_t));
if (!unicode)
return NULL;
/* Unpack UTF-8 encoded data */
p = unicode;
e = s + size;
while (s < e) {
Py_UCS4 ch = (unsigned char)*s;
if (ch < 0x80) {
*p++ = (wchar_t)ch;
s++;
continue;
}
n = utf8_code_length[ch];
if (s + n > e) {
goto surrogateescape;
}
switch (n) {
case 0:
case 1:
goto surrogateescape;
case 2:
if ((s[1] & 0xc0) != 0x80)
goto surrogateescape;
ch = ((s[0] & 0x1f) << 6) + (s[1] & 0x3f);
assert ((ch > 0x007F) && (ch <= 0x07FF));
*p++ = (wchar_t)ch;
break;
case 3:
/* Decoding UTF-8 sequences in range \xed\xa0\x80-\xed\xbf\xbf
will result in surrogates in range d800-dfff. Surrogates are
not valid UTF-8 so they are rejected.
See http://www.unicode.org/versions/Unicode5.2.0/ch03.pdf
(table 3-7) and http://www.rfc-editor.org/rfc/rfc3629.txt */
if ((s[1] & 0xc0) != 0x80 ||
(s[2] & 0xc0) != 0x80 ||
((unsigned char)s[0] == 0xE0 &&
(unsigned char)s[1] < 0xA0) ||
((unsigned char)s[0] == 0xED &&
(unsigned char)s[1] > 0x9F)) {
goto surrogateescape;
}
ch = ((s[0] & 0x0f) << 12) + ((s[1] & 0x3f) << 6) + (s[2] & 0x3f);
assert ((ch > 0x07FF) && (ch <= 0xFFFF));
*p++ = (Py_UNICODE)ch;
break;
case 4:
if ((s[1] & 0xc0) != 0x80 ||
(s[2] & 0xc0) != 0x80 ||
(s[3] & 0xc0) != 0x80 ||
((unsigned char)s[0] == 0xF0 &&
(unsigned char)s[1] < 0x90) ||
((unsigned char)s[0] == 0xF4 &&
(unsigned char)s[1] > 0x8F)) {
goto surrogateescape;
}
ch = ((s[0] & 0x7) << 18) + ((s[1] & 0x3f) << 12) +
((s[2] & 0x3f) << 6) + (s[3] & 0x3f);
assert ((ch > 0xFFFF) && (ch <= 0x10ffff));
#if SIZEOF_WCHAR_T == 4
*p++ = (wchar_t)ch;
#else
/* compute and append the two surrogates: */
/* translate from 10000..10FFFF to 0..FFFF */
ch -= 0x10000;
/* high surrogate = top 10 bits added to D800 */
*p++ = (wchar_t)(0xD800 + (ch >> 10));
/* low surrogate = bottom 10 bits added to DC00 */
*p++ = (wchar_t)(0xDC00 + (ch & 0x03FF));
#endif
break;
}
s += n;
continue;
surrogateescape:
*p++ = 0xDC00 + ch;
s++;
}
*p = L'\0';
return unicode;
}
#endif /* __APPLE__ */
/* Allocation strategy: if the string is short, convert into a stack buffer
and allocate exactly as much space needed at the end. Else allocate the
maximum possible needed (4 result bytes per Unicode character), and return
the excess memory at the end.
*/
PyObject *
PyUnicode_EncodeUTF8(const Py_UNICODE *s,
Py_ssize_t size,
const char *errors)
{
#define MAX_SHORT_UNICHARS 300 /* largest size we'll do on the stack */
Py_ssize_t i; /* index into s of next input byte */
PyObject *result; /* result string object */
char *p; /* next free byte in output buffer */
Py_ssize_t nallocated; /* number of result bytes allocated */
Py_ssize_t nneeded; /* number of result bytes needed */
char stackbuf[MAX_SHORT_UNICHARS * 4];
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
assert(s != NULL);
assert(size >= 0);
if (size <= MAX_SHORT_UNICHARS) {
/* Write into the stack buffer; nallocated can't overflow.
* At the end, we'll allocate exactly as much heap space as it
* turns out we need.
*/
nallocated = Py_SAFE_DOWNCAST(sizeof(stackbuf), size_t, int);
result = NULL; /* will allocate after we're done */
p = stackbuf;
}
else {
/* Overallocate on the heap, and give the excess back at the end. */
nallocated = size * 4;
if (nallocated / 4 != size) /* overflow! */
return PyErr_NoMemory();
result = PyBytes_FromStringAndSize(NULL, nallocated);
if (result == NULL)
return NULL;
p = PyBytes_AS_STRING(result);
}
for (i = 0; i < size;) {
Py_UCS4 ch = s[i++];
if (ch < 0x80)
/* Encode ASCII */
*p++ = (char) ch;
else if (ch < 0x0800) {
/* Encode Latin-1 */
*p++ = (char)(0xc0 | (ch >> 6));
*p++ = (char)(0x80 | (ch & 0x3f));
} else if (0xD800 <= ch && ch <= 0xDFFF) {
#ifndef Py_UNICODE_WIDE
/* Special case: check for high and low surrogate */
if (ch <= 0xDBFF && i != size && 0xDC00 <= s[i] && s[i] <= 0xDFFF) {
Py_UCS4 ch2 = s[i];
/* Combine the two surrogates to form a UCS4 value */
ch = ((ch - 0xD800) << 10 | (ch2 - 0xDC00)) + 0x10000;
i++;
/* Encode UCS4 Unicode ordinals */
*p++ = (char)(0xf0 | (ch >> 18));
*p++ = (char)(0x80 | ((ch >> 12) & 0x3f));
*p++ = (char)(0x80 | ((ch >> 6) & 0x3f));
*p++ = (char)(0x80 | (ch & 0x3f));
} else {
#endif
Py_ssize_t newpos;
PyObject *rep;
Py_ssize_t repsize, k;
rep = unicode_encode_call_errorhandler
(errors, &errorHandler, "utf-8", "surrogates not allowed",
s, size, &exc, i-1, i, &newpos);
if (!rep)
goto error;
if (PyBytes_Check(rep))
repsize = PyBytes_GET_SIZE(rep);
else
repsize = PyUnicode_GET_SIZE(rep);
if (repsize > 4) {
Py_ssize_t offset;
if (result == NULL)
offset = p - stackbuf;
else
offset = p - PyBytes_AS_STRING(result);
if (nallocated > PY_SSIZE_T_MAX - repsize + 4) {
/* integer overflow */
PyErr_NoMemory();
goto error;
}
nallocated += repsize - 4;
if (result != NULL) {
if (_PyBytes_Resize(&result, nallocated) < 0)
goto error;
} else {
result = PyBytes_FromStringAndSize(NULL, nallocated);
if (result == NULL)
goto error;
Py_MEMCPY(PyBytes_AS_STRING(result), stackbuf, offset);
}
p = PyBytes_AS_STRING(result) + offset;
}
if (PyBytes_Check(rep)) {
char *prep = PyBytes_AS_STRING(rep);
for(k = repsize; k > 0; k--)
*p++ = *prep++;
} else /* rep is unicode */ {
Py_UNICODE *prep = PyUnicode_AS_UNICODE(rep);
Py_UNICODE c;
for(k=0; k<repsize; k++) {
c = prep[k];
if (0x80 <= c) {
raise_encode_exception(&exc, "utf-8", s, size,
i-1, i, "surrogates not allowed");
goto error;
}
*p++ = (char)prep[k];
}
}
Py_DECREF(rep);
#ifndef Py_UNICODE_WIDE
}
#endif
} else if (ch < 0x10000) {
*p++ = (char)(0xe0 | (ch >> 12));
*p++ = (char)(0x80 | ((ch >> 6) & 0x3f));
*p++ = (char)(0x80 | (ch & 0x3f));
} else /* ch >= 0x10000 */ {
/* Encode UCS4 Unicode ordinals */
*p++ = (char)(0xf0 | (ch >> 18));
*p++ = (char)(0x80 | ((ch >> 12) & 0x3f));
*p++ = (char)(0x80 | ((ch >> 6) & 0x3f));
*p++ = (char)(0x80 | (ch & 0x3f));
}
}
if (result == NULL) {
/* This was stack allocated. */
nneeded = p - stackbuf;
assert(nneeded <= nallocated);
result = PyBytes_FromStringAndSize(stackbuf, nneeded);
}
else {
/* Cut back to size actually needed. */
nneeded = p - PyBytes_AS_STRING(result);
assert(nneeded <= nallocated);
_PyBytes_Resize(&result, nneeded);
}
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return result;
error:
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
Py_XDECREF(result);
return NULL;
#undef MAX_SHORT_UNICHARS
}
PyObject *PyUnicode_AsUTF8String(PyObject *unicode)
{
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
return PyUnicode_EncodeUTF8(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
NULL);
}
/* --- UTF-32 Codec ------------------------------------------------------- */
PyObject *
PyUnicode_DecodeUTF32(const char *s,
Py_ssize_t size,
const char *errors,
int *byteorder)
{
return PyUnicode_DecodeUTF32Stateful(s, size, errors, byteorder, NULL);
}
PyObject *
PyUnicode_DecodeUTF32Stateful(const char *s,
Py_ssize_t size,
const char *errors,
int *byteorder,
Py_ssize_t *consumed)
{
const char *starts = s;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
PyUnicodeObject *unicode;
Py_UNICODE *p;
#ifndef Py_UNICODE_WIDE
int pairs = 0;
const unsigned char *qq;
#else
const int pairs = 0;
#endif
const unsigned char *q, *e;
int bo = 0; /* assume native ordering by default */
const char *errmsg = "";
/* Offsets from q for retrieving bytes in the right order. */
#ifdef BYTEORDER_IS_LITTLE_ENDIAN
int iorder[] = {0, 1, 2, 3};
#else
int iorder[] = {3, 2, 1, 0};
#endif
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
q = (unsigned char *)s;
e = q + size;
if (byteorder)
bo = *byteorder;
/* Check for BOM marks (U+FEFF) in the input and adjust current
byte order setting accordingly. In native mode, the leading BOM
mark is skipped, in all other modes, it is copied to the output
stream as-is (giving a ZWNBSP character). */
if (bo == 0) {
if (size >= 4) {
const Py_UCS4 bom = (q[iorder[3]] << 24) | (q[iorder[2]] << 16) |
(q[iorder[1]] << 8) | q[iorder[0]];
#ifdef BYTEORDER_IS_LITTLE_ENDIAN
if (bom == 0x0000FEFF) {
q += 4;
bo = -1;
}
else if (bom == 0xFFFE0000) {
q += 4;
bo = 1;
}
#else
if (bom == 0x0000FEFF) {
q += 4;
bo = 1;
}
else if (bom == 0xFFFE0000) {
q += 4;
bo = -1;
}
#endif
}
}
if (bo == -1) {
/* force LE */
iorder[0] = 0;
iorder[1] = 1;
iorder[2] = 2;
iorder[3] = 3;
}
else if (bo == 1) {
/* force BE */
iorder[0] = 3;
iorder[1] = 2;
iorder[2] = 1;
iorder[3] = 0;
}
/* On narrow builds we split characters outside the BMP into two
codepoints => count how much extra space we need. */
#ifndef Py_UNICODE_WIDE
for (qq = q; qq < e; qq += 4)
if (qq[iorder[2]] != 0 || qq[iorder[3]] != 0)
pairs++;
#endif
/* This might be one to much, because of a BOM */
unicode = _PyUnicode_New((size+3)/4+pairs);
if (!unicode)
return NULL;
if (size == 0)
return (PyObject *)unicode;
/* Unpack UTF-32 encoded data */
p = unicode->str;
while (q < e) {
Py_UCS4 ch;
/* remaining bytes at the end? (size should be divisible by 4) */
if (e-q<4) {
if (consumed)
break;
errmsg = "truncated data";
startinpos = ((const char *)q)-starts;
endinpos = ((const char *)e)-starts;
goto utf32Error;
/* The remaining input chars are ignored if the callback
chooses to skip the input */
}
ch = (q[iorder[3]] << 24) | (q[iorder[2]] << 16) |
(q[iorder[1]] << 8) | q[iorder[0]];
if (ch >= 0x110000)
{
errmsg = "codepoint not in range(0x110000)";
startinpos = ((const char *)q)-starts;
endinpos = startinpos+4;
goto utf32Error;
}
#ifndef Py_UNICODE_WIDE
if (ch >= 0x10000)
{
*p++ = 0xD800 | ((ch-0x10000) >> 10);
*p++ = 0xDC00 | ((ch-0x10000) & 0x3FF);
}
else
#endif
*p++ = ch;
q += 4;
continue;
utf32Error:
outpos = p-PyUnicode_AS_UNICODE(unicode);
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"utf32", errmsg,
&starts, (const char **)&e, &startinpos, &endinpos, &exc, (const char **)&q,
&unicode, &outpos, &p))
goto onError;
}
if (byteorder)
*byteorder = bo;
if (consumed)
*consumed = (const char *)q-starts;
/* Adjust length */
if (_PyUnicode_Resize(&unicode, p - unicode->str) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)unicode;
onError:
Py_DECREF(unicode);
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return NULL;
}
PyObject *
PyUnicode_EncodeUTF32(const Py_UNICODE *s,
Py_ssize_t size,
const char *errors,
int byteorder)
{
PyObject *v;
unsigned char *p;
Py_ssize_t nsize, bytesize;
#ifndef Py_UNICODE_WIDE
Py_ssize_t i, pairs;
#else
const int pairs = 0;
#endif
/* Offsets from p for storing byte pairs in the right order. */
#ifdef BYTEORDER_IS_LITTLE_ENDIAN
int iorder[] = {0, 1, 2, 3};
#else
int iorder[] = {3, 2, 1, 0};
#endif
#define STORECHAR(CH) \
do { \
p[iorder[3]] = ((CH) >> 24) & 0xff; \
p[iorder[2]] = ((CH) >> 16) & 0xff; \
p[iorder[1]] = ((CH) >> 8) & 0xff; \
p[iorder[0]] = (CH) & 0xff; \
p += 4; \
} while(0)
/* In narrow builds we can output surrogate pairs as one codepoint,
so we need less space. */
#ifndef Py_UNICODE_WIDE
for (i = pairs = 0; i < size-1; i++)
if (0xD800 <= s[i] && s[i] <= 0xDBFF &&
0xDC00 <= s[i+1] && s[i+1] <= 0xDFFF)
pairs++;
#endif
nsize = (size - pairs + (byteorder == 0));
bytesize = nsize * 4;
if (bytesize / 4 != nsize)
return PyErr_NoMemory();
v = PyBytes_FromStringAndSize(NULL, bytesize);
if (v == NULL)
return NULL;
p = (unsigned char *)PyBytes_AS_STRING(v);
if (byteorder == 0)
STORECHAR(0xFEFF);
if (size == 0)
goto done;
if (byteorder == -1) {
/* force LE */
iorder[0] = 0;
iorder[1] = 1;
iorder[2] = 2;
iorder[3] = 3;
}
else if (byteorder == 1) {
/* force BE */
iorder[0] = 3;
iorder[1] = 2;
iorder[2] = 1;
iorder[3] = 0;
}
while (size-- > 0) {
Py_UCS4 ch = *s++;
#ifndef Py_UNICODE_WIDE
if (0xD800 <= ch && ch <= 0xDBFF && size > 0) {
Py_UCS4 ch2 = *s;
if (0xDC00 <= ch2 && ch2 <= 0xDFFF) {
ch = (((ch & 0x3FF)<<10) | (ch2 & 0x3FF)) + 0x10000;
s++;
size--;
}
}
#endif
STORECHAR(ch);
}
done:
return v;
#undef STORECHAR
}
PyObject *PyUnicode_AsUTF32String(PyObject *unicode)
{
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
return PyUnicode_EncodeUTF32(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
NULL,
0);
}
/* --- UTF-16 Codec ------------------------------------------------------- */
PyObject *
PyUnicode_DecodeUTF16(const char *s,
Py_ssize_t size,
const char *errors,
int *byteorder)
{
return PyUnicode_DecodeUTF16Stateful(s, size, errors, byteorder, NULL);
}
/* Two masks for fast checking of whether a C 'long' may contain
UTF16-encoded surrogate characters. This is an efficient heuristic,
assuming that non-surrogate characters with a code point >= 0x8000 are
rare in most input.
FAST_CHAR_MASK is used when the input is in native byte ordering,
SWAPPED_FAST_CHAR_MASK when the input is in byteswapped ordering.
*/
#if (SIZEOF_LONG == 8)
# define FAST_CHAR_MASK 0x8000800080008000L
# define SWAPPED_FAST_CHAR_MASK 0x0080008000800080L
#elif (SIZEOF_LONG == 4)
# define FAST_CHAR_MASK 0x80008000L
# define SWAPPED_FAST_CHAR_MASK 0x00800080L
#else
# error C 'long' size should be either 4 or 8!
#endif
PyObject *
PyUnicode_DecodeUTF16Stateful(const char *s,
Py_ssize_t size,
const char *errors,
int *byteorder,
Py_ssize_t *consumed)
{
const char *starts = s;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
PyUnicodeObject *unicode;
Py_UNICODE *p;
const unsigned char *q, *e, *aligned_end;
int bo = 0; /* assume native ordering by default */
int native_ordering = 0;
const char *errmsg = "";
/* Offsets from q for retrieving byte pairs in the right order. */
#ifdef BYTEORDER_IS_LITTLE_ENDIAN
int ihi = 1, ilo = 0;
#else
int ihi = 0, ilo = 1;
#endif
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
/* Note: size will always be longer than the resulting Unicode
character count */
unicode = _PyUnicode_New(size);
if (!unicode)
return NULL;
if (size == 0)
return (PyObject *)unicode;
/* Unpack UTF-16 encoded data */
p = unicode->str;
q = (unsigned char *)s;
e = q + size - 1;
if (byteorder)
bo = *byteorder;
/* Check for BOM marks (U+FEFF) in the input and adjust current
byte order setting accordingly. In native mode, the leading BOM
mark is skipped, in all other modes, it is copied to the output
stream as-is (giving a ZWNBSP character). */
if (bo == 0) {
if (size >= 2) {
const Py_UNICODE bom = (q[ihi] << 8) | q[ilo];
#ifdef BYTEORDER_IS_LITTLE_ENDIAN
if (bom == 0xFEFF) {
q += 2;
bo = -1;
}
else if (bom == 0xFFFE) {
q += 2;
bo = 1;
}
#else
if (bom == 0xFEFF) {
q += 2;
bo = 1;
}
else if (bom == 0xFFFE) {
q += 2;
bo = -1;
}
#endif
}
}
if (bo == -1) {
/* force LE */
ihi = 1;
ilo = 0;
}
else if (bo == 1) {
/* force BE */
ihi = 0;
ilo = 1;
}
#ifdef BYTEORDER_IS_LITTLE_ENDIAN
native_ordering = ilo < ihi;
#else
native_ordering = ilo > ihi;
#endif
aligned_end = (const unsigned char *) ((size_t) e & ~LONG_PTR_MASK);
while (q < e) {
Py_UNICODE ch;
/* First check for possible aligned read of a C 'long'. Unaligned
reads are more expensive, better to defer to another iteration. */
if (!((size_t) q & LONG_PTR_MASK)) {
/* Fast path for runs of non-surrogate chars. */
register const unsigned char *_q = q;
Py_UNICODE *_p = p;
if (native_ordering) {
/* Native ordering is simple: as long as the input cannot
possibly contain a surrogate char, do an unrolled copy
of several 16-bit code points to the target object.
The non-surrogate check is done on several input bytes
at a time (as many as a C 'long' can contain). */
while (_q < aligned_end) {
unsigned long data = * (unsigned long *) _q;
if (data & FAST_CHAR_MASK)
break;
_p[0] = ((unsigned short *) _q)[0];
_p[1] = ((unsigned short *) _q)[1];
#if (SIZEOF_LONG == 8)
_p[2] = ((unsigned short *) _q)[2];
_p[3] = ((unsigned short *) _q)[3];
#endif
_q += SIZEOF_LONG;
_p += SIZEOF_LONG / 2;
}
}
else {
/* Byteswapped ordering is similar, but we must decompose
the copy bytewise, and take care of zero'ing out the
upper bytes if the target object is in 32-bit units
(that is, in UCS-4 builds). */
while (_q < aligned_end) {
unsigned long data = * (unsigned long *) _q;
if (data & SWAPPED_FAST_CHAR_MASK)
break;
/* Zero upper bytes in UCS-4 builds */
#if (Py_UNICODE_SIZE > 2)
_p[0] = 0;
_p[1] = 0;
#if (SIZEOF_LONG == 8)
_p[2] = 0;
_p[3] = 0;
#endif
#endif
/* Issue #4916; UCS-4 builds on big endian machines must
fill the two last bytes of each 4-byte unit. */
#if (!defined(BYTEORDER_IS_LITTLE_ENDIAN) && Py_UNICODE_SIZE > 2)
# define OFF 2
#else
# define OFF 0
#endif
((unsigned char *) _p)[OFF + 1] = _q[0];
((unsigned char *) _p)[OFF + 0] = _q[1];
((unsigned char *) _p)[OFF + 1 + Py_UNICODE_SIZE] = _q[2];
((unsigned char *) _p)[OFF + 0 + Py_UNICODE_SIZE] = _q[3];
#if (SIZEOF_LONG == 8)
((unsigned char *) _p)[OFF + 1 + 2 * Py_UNICODE_SIZE] = _q[4];
((unsigned char *) _p)[OFF + 0 + 2 * Py_UNICODE_SIZE] = _q[5];
((unsigned char *) _p)[OFF + 1 + 3 * Py_UNICODE_SIZE] = _q[6];
((unsigned char *) _p)[OFF + 0 + 3 * Py_UNICODE_SIZE] = _q[7];
#endif
#undef OFF
_q += SIZEOF_LONG;
_p += SIZEOF_LONG / 2;
}
}
p = _p;
q = _q;
if (q >= e)
break;
}
ch = (q[ihi] << 8) | q[ilo];
q += 2;
if (ch < 0xD800 || ch > 0xDFFF) {
*p++ = ch;
continue;
}
/* UTF-16 code pair: */
if (q > e) {
errmsg = "unexpected end of data";
startinpos = (((const char *)q) - 2) - starts;
endinpos = ((const char *)e) + 1 - starts;
goto utf16Error;
}
if (0xD800 <= ch && ch <= 0xDBFF) {
Py_UNICODE ch2 = (q[ihi] << 8) | q[ilo];
q += 2;
if (0xDC00 <= ch2 && ch2 <= 0xDFFF) {
#ifndef Py_UNICODE_WIDE
*p++ = ch;
*p++ = ch2;
#else
*p++ = (((ch & 0x3FF)<<10) | (ch2 & 0x3FF)) + 0x10000;
#endif
continue;
}
else {
errmsg = "illegal UTF-16 surrogate";
startinpos = (((const char *)q)-4)-starts;
endinpos = startinpos+2;
goto utf16Error;
}
}
errmsg = "illegal encoding";
startinpos = (((const char *)q)-2)-starts;
endinpos = startinpos+2;
/* Fall through to report the error */
utf16Error:
outpos = p - PyUnicode_AS_UNICODE(unicode);
if (unicode_decode_call_errorhandler(
errors,
&errorHandler,
"utf16", errmsg,
&starts,
(const char **)&e,
&startinpos,
&endinpos,
&exc,
(const char **)&q,
&unicode,
&outpos,
&p))
goto onError;
}
/* remaining byte at the end? (size should be even) */
if (e == q) {
if (!consumed) {
errmsg = "truncated data";
startinpos = ((const char *)q) - starts;
endinpos = ((const char *)e) + 1 - starts;
outpos = p - PyUnicode_AS_UNICODE(unicode);
if (unicode_decode_call_errorhandler(
errors,
&errorHandler,
"utf16", errmsg,
&starts,
(const char **)&e,
&startinpos,
&endinpos,
&exc,
(const char **)&q,
&unicode,
&outpos,
&p))
goto onError;
/* The remaining input chars are ignored if the callback
chooses to skip the input */
}
}
if (byteorder)
*byteorder = bo;
if (consumed)
*consumed = (const char *)q-starts;
/* Adjust length */
if (_PyUnicode_Resize(&unicode, p - unicode->str) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)unicode;
onError:
Py_DECREF(unicode);
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return NULL;
}
#undef FAST_CHAR_MASK
#undef SWAPPED_FAST_CHAR_MASK
PyObject *
PyUnicode_EncodeUTF16(const Py_UNICODE *s,
Py_ssize_t size,
const char *errors,
int byteorder)
{
PyObject *v;
unsigned char *p;
Py_ssize_t nsize, bytesize;
#ifdef Py_UNICODE_WIDE
Py_ssize_t i, pairs;
#else
const int pairs = 0;
#endif
/* Offsets from p for storing byte pairs in the right order. */
#ifdef BYTEORDER_IS_LITTLE_ENDIAN
int ihi = 1, ilo = 0;
#else
int ihi = 0, ilo = 1;
#endif
#define STORECHAR(CH) \
do { \
p[ihi] = ((CH) >> 8) & 0xff; \
p[ilo] = (CH) & 0xff; \
p += 2; \
} while(0)
#ifdef Py_UNICODE_WIDE
for (i = pairs = 0; i < size; i++)
if (s[i] >= 0x10000)
pairs++;
#endif
/* 2 * (size + pairs + (byteorder == 0)) */
if (size > PY_SSIZE_T_MAX ||
size > PY_SSIZE_T_MAX - pairs - (byteorder == 0))
return PyErr_NoMemory();
nsize = size + pairs + (byteorder == 0);
bytesize = nsize * 2;
if (bytesize / 2 != nsize)
return PyErr_NoMemory();
v = PyBytes_FromStringAndSize(NULL, bytesize);
if (v == NULL)
return NULL;
p = (unsigned char *)PyBytes_AS_STRING(v);
if (byteorder == 0)
STORECHAR(0xFEFF);
if (size == 0)
goto done;
if (byteorder == -1) {
/* force LE */
ihi = 1;
ilo = 0;
}
else if (byteorder == 1) {
/* force BE */
ihi = 0;
ilo = 1;
}
while (size-- > 0) {
Py_UNICODE ch = *s++;
Py_UNICODE ch2 = 0;
#ifdef Py_UNICODE_WIDE
if (ch >= 0x10000) {
ch2 = 0xDC00 | ((ch-0x10000) & 0x3FF);
ch = 0xD800 | ((ch-0x10000) >> 10);
}
#endif
STORECHAR(ch);
if (ch2)
STORECHAR(ch2);
}
done:
return v;
#undef STORECHAR
}
PyObject *PyUnicode_AsUTF16String(PyObject *unicode)
{
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
return PyUnicode_EncodeUTF16(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
NULL,
0);
}
/* --- Unicode Escape Codec ----------------------------------------------- */
static _PyUnicode_Name_CAPI *ucnhash_CAPI = NULL;
PyObject *PyUnicode_DecodeUnicodeEscape(const char *s,
Py_ssize_t size,
const char *errors)
{
const char *starts = s;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
int i;
PyUnicodeObject *v;
Py_UNICODE *p;
const char *end;
char* message;
Py_UCS4 chr = 0xffffffff; /* in case 'getcode' messes up */
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
/* Escaped strings will always be longer than the resulting
Unicode string, so we start with size here and then reduce the
length after conversion to the true value.
(but if the error callback returns a long replacement string
we'll have to allocate more space) */
v = _PyUnicode_New(size);
if (v == NULL)
goto onError;
if (size == 0)
return (PyObject *)v;
p = PyUnicode_AS_UNICODE(v);
end = s + size;
while (s < end) {
unsigned char c;
Py_UNICODE x;
int digits;
/* Non-escape characters are interpreted as Unicode ordinals */
if (*s != '\\') {
*p++ = (unsigned char) *s++;
continue;
}
startinpos = s-starts;
/* \ - Escapes */
s++;
c = *s++;
if (s > end)
c = '\0'; /* Invalid after \ */
switch (c) {
/* \x escapes */
case '\n': break;
case '\\': *p++ = '\\'; break;
case '\'': *p++ = '\''; break;
case '\"': *p++ = '\"'; break;
case 'b': *p++ = '\b'; break;
case 'f': *p++ = '\014'; break; /* FF */
case 't': *p++ = '\t'; break;
case 'n': *p++ = '\n'; break;
case 'r': *p++ = '\r'; break;
case 'v': *p++ = '\013'; break; /* VT */
case 'a': *p++ = '\007'; break; /* BEL, not classic C */
/* \OOO (octal) escapes */
case '0': case '1': case '2': case '3':
case '4': case '5': case '6': case '7':
x = s[-1] - '0';
if (s < end && '0' <= *s && *s <= '7') {
x = (x<<3) + *s++ - '0';
if (s < end && '0' <= *s && *s <= '7')
x = (x<<3) + *s++ - '0';
}
*p++ = x;
break;
/* hex escapes */
/* \xXX */
case 'x':
digits = 2;
message = "truncated \\xXX escape";
goto hexescape;
/* \uXXXX */
case 'u':
digits = 4;
message = "truncated \\uXXXX escape";
goto hexescape;
/* \UXXXXXXXX */
case 'U':
digits = 8;
message = "truncated \\UXXXXXXXX escape";
hexescape:
chr = 0;
outpos = p-PyUnicode_AS_UNICODE(v);
if (s+digits>end) {
endinpos = size;
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"unicodeescape", "end of string in escape sequence",
&starts, &end, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p))
goto onError;
goto nextByte;
}
for (i = 0; i < digits; ++i) {
c = (unsigned char) s[i];
if (!Py_ISXDIGIT(c)) {
endinpos = (s+i+1)-starts;
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"unicodeescape", message,
&starts, &end, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p))
goto onError;
goto nextByte;
}
chr = (chr<<4) & ~0xF;
if (c >= '0' && c <= '9')
chr += c - '0';
else if (c >= 'a' && c <= 'f')
chr += 10 + c - 'a';
else
chr += 10 + c - 'A';
}
s += i;
if (chr == 0xffffffff && PyErr_Occurred())
/* _decoding_error will have already written into the
target buffer. */
break;
store:
/* when we get here, chr is a 32-bit unicode character */
if (chr <= 0xffff)
/* UCS-2 character */
*p++ = (Py_UNICODE) chr;
else if (chr <= 0x10ffff) {
/* UCS-4 character. Either store directly, or as
surrogate pair. */
#ifdef Py_UNICODE_WIDE
*p++ = chr;
#else
chr -= 0x10000L;
*p++ = 0xD800 + (Py_UNICODE) (chr >> 10);
*p++ = 0xDC00 + (Py_UNICODE) (chr & 0x03FF);
#endif
} else {
endinpos = s-starts;
outpos = p-PyUnicode_AS_UNICODE(v);
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"unicodeescape", "illegal Unicode character",
&starts, &end, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p))
goto onError;
}
break;
/* \N{name} */
case 'N':
message = "malformed \\N character escape";
if (ucnhash_CAPI == NULL) {
/* load the unicode data module */
ucnhash_CAPI = (_PyUnicode_Name_CAPI *)PyCapsule_Import(PyUnicodeData_CAPSULE_NAME, 1);
if (ucnhash_CAPI == NULL)
goto ucnhashError;
}
if (*s == '{') {
const char *start = s+1;
/* look for the closing brace */
while (*s != '}' && s < end)
s++;
if (s > start && s < end && *s == '}') {
/* found a name. look it up in the unicode database */
message = "unknown Unicode character name";
s++;
if (ucnhash_CAPI->getcode(NULL, start, (int)(s-start-1), &chr))
goto store;
}
}
endinpos = s-starts;
outpos = p-PyUnicode_AS_UNICODE(v);
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"unicodeescape", message,
&starts, &end, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p))
goto onError;
break;
default:
if (s > end) {
message = "\\ at end of string";
s--;
endinpos = s-starts;
outpos = p-PyUnicode_AS_UNICODE(v);
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"unicodeescape", message,
&starts, &end, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p))
goto onError;
}
else {
*p++ = '\\';
*p++ = (unsigned char)s[-1];
}
break;
}
nextByte:
;
}
if (_PyUnicode_Resize(&v, p - PyUnicode_AS_UNICODE(v)) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)v;
ucnhashError:
PyErr_SetString(
PyExc_UnicodeError,
"\\N escapes not supported (can't load unicodedata module)"
);
Py_XDECREF(v);
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return NULL;
onError:
Py_XDECREF(v);
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return NULL;
}
/* Return a Unicode-Escape string version of the Unicode object.
If quotes is true, the string is enclosed in u"" or u'' quotes as
appropriate.
*/
Py_LOCAL_INLINE(const Py_UNICODE *) findchar(const Py_UNICODE *s,
Py_ssize_t size,
Py_UNICODE ch)
{
/* like wcschr, but doesn't stop at NULL characters */
while (size-- > 0) {
if (*s == ch)
return s;
s++;
}
return NULL;
}
static const char *hexdigits = "0123456789abcdef";
PyObject *PyUnicode_EncodeUnicodeEscape(const Py_UNICODE *s,
Py_ssize_t size)
{
PyObject *repr;
char *p;
#ifdef Py_UNICODE_WIDE
const Py_ssize_t expandsize = 10;
#else
const Py_ssize_t expandsize = 6;
#endif
/* XXX(nnorwitz): rather than over-allocating, it would be
better to choose a different scheme. Perhaps scan the
first N-chars of the string and allocate based on that size.
*/
/* Initial allocation is based on the longest-possible unichr
escape.
In wide (UTF-32) builds '\U00xxxxxx' is 10 chars per source
unichr, so in this case it's the longest unichr escape. In
narrow (UTF-16) builds this is five chars per source unichr
since there are two unichrs in the surrogate pair, so in narrow
(UTF-16) builds it's not the longest unichr escape.
In wide or narrow builds '\uxxxx' is 6 chars per source unichr,
so in the narrow (UTF-16) build case it's the longest unichr
escape.
*/
if (size == 0)
return PyBytes_FromStringAndSize(NULL, 0);
if (size > (PY_SSIZE_T_MAX - 2 - 1) / expandsize)
return PyErr_NoMemory();
repr = PyBytes_FromStringAndSize(NULL,
2
+ expandsize*size
+ 1);
if (repr == NULL)
return NULL;
p = PyBytes_AS_STRING(repr);
while (size-- > 0) {
Py_UNICODE ch = *s++;
/* Escape backslashes */
if (ch == '\\') {
*p++ = '\\';
*p++ = (char) ch;
continue;
}
#ifdef Py_UNICODE_WIDE
/* Map 21-bit characters to '\U00xxxxxx' */
else if (ch >= 0x10000) {
*p++ = '\\';
*p++ = 'U';
*p++ = hexdigits[(ch >> 28) & 0x0000000F];
*p++ = hexdigits[(ch >> 24) & 0x0000000F];
*p++ = hexdigits[(ch >> 20) & 0x0000000F];
*p++ = hexdigits[(ch >> 16) & 0x0000000F];
*p++ = hexdigits[(ch >> 12) & 0x0000000F];
*p++ = hexdigits[(ch >> 8) & 0x0000000F];
*p++ = hexdigits[(ch >> 4) & 0x0000000F];
*p++ = hexdigits[ch & 0x0000000F];
continue;
}
#else
/* Map UTF-16 surrogate pairs to '\U00xxxxxx' */
else if (ch >= 0xD800 && ch < 0xDC00) {
Py_UNICODE ch2;
Py_UCS4 ucs;
ch2 = *s++;
size--;
if (ch2 >= 0xDC00 && ch2 <= 0xDFFF) {
ucs = (((ch & 0x03FF) << 10) | (ch2 & 0x03FF)) + 0x00010000;
*p++ = '\\';
*p++ = 'U';
*p++ = hexdigits[(ucs >> 28) & 0x0000000F];
*p++ = hexdigits[(ucs >> 24) & 0x0000000F];
*p++ = hexdigits[(ucs >> 20) & 0x0000000F];
*p++ = hexdigits[(ucs >> 16) & 0x0000000F];
*p++ = hexdigits[(ucs >> 12) & 0x0000000F];
*p++ = hexdigits[(ucs >> 8) & 0x0000000F];
*p++ = hexdigits[(ucs >> 4) & 0x0000000F];
*p++ = hexdigits[ucs & 0x0000000F];
continue;
}
/* Fall through: isolated surrogates are copied as-is */
s--;
size++;
}
#endif
/* Map 16-bit characters to '\uxxxx' */
if (ch >= 256) {
*p++ = '\\';
*p++ = 'u';
*p++ = hexdigits[(ch >> 12) & 0x000F];
*p++ = hexdigits[(ch >> 8) & 0x000F];
*p++ = hexdigits[(ch >> 4) & 0x000F];
*p++ = hexdigits[ch & 0x000F];
}
/* Map special whitespace to '\t', \n', '\r' */
else if (ch == '\t') {
*p++ = '\\';
*p++ = 't';
}
else if (ch == '\n') {
*p++ = '\\';
*p++ = 'n';
}
else if (ch == '\r') {
*p++ = '\\';
*p++ = 'r';
}
/* Map non-printable US ASCII to '\xhh' */
else if (ch < ' ' || ch >= 0x7F) {
*p++ = '\\';
*p++ = 'x';
*p++ = hexdigits[(ch >> 4) & 0x000F];
*p++ = hexdigits[ch & 0x000F];
}
/* Copy everything else as-is */
else
*p++ = (char) ch;
}
assert(p - PyBytes_AS_STRING(repr) > 0);
if (_PyBytes_Resize(&repr, p - PyBytes_AS_STRING(repr)) < 0)
return NULL;
return repr;
}
PyObject *PyUnicode_AsUnicodeEscapeString(PyObject *unicode)
{
PyObject *s;
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
s = PyUnicode_EncodeUnicodeEscape(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode));
return s;
}
/* --- Raw Unicode Escape Codec ------------------------------------------- */
PyObject *PyUnicode_DecodeRawUnicodeEscape(const char *s,
Py_ssize_t size,
const char *errors)
{
const char *starts = s;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
PyUnicodeObject *v;
Py_UNICODE *p;
const char *end;
const char *bs;
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
/* Escaped strings will always be longer than the resulting
Unicode string, so we start with size here and then reduce the
length after conversion to the true value. (But decoding error
handler might have to resize the string) */
v = _PyUnicode_New(size);
if (v == NULL)
goto onError;
if (size == 0)
return (PyObject *)v;
p = PyUnicode_AS_UNICODE(v);
end = s + size;
while (s < end) {
unsigned char c;
Py_UCS4 x;
int i;
int count;
/* Non-escape characters are interpreted as Unicode ordinals */
if (*s != '\\') {
*p++ = (unsigned char)*s++;
continue;
}
startinpos = s-starts;
/* \u-escapes are only interpreted iff the number of leading
backslashes if odd */
bs = s;
for (;s < end;) {
if (*s != '\\')
break;
*p++ = (unsigned char)*s++;
}
if (((s - bs) & 1) == 0 ||
s >= end ||
(*s != 'u' && *s != 'U')) {
continue;
}
p--;
count = *s=='u' ? 4 : 8;
s++;
/* \uXXXX with 4 hex digits, \Uxxxxxxxx with 8 */
outpos = p-PyUnicode_AS_UNICODE(v);
for (x = 0, i = 0; i < count; ++i, ++s) {
c = (unsigned char)*s;
if (!Py_ISXDIGIT(c)) {
endinpos = s-starts;
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"rawunicodeescape", "truncated \\uXXXX",
&starts, &end, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p))
goto onError;
goto nextByte;
}
x = (x<<4) & ~0xF;
if (c >= '0' && c <= '9')
x += c - '0';
else if (c >= 'a' && c <= 'f')
x += 10 + c - 'a';
else
x += 10 + c - 'A';
}
if (x <= 0xffff)
/* UCS-2 character */
*p++ = (Py_UNICODE) x;
else if (x <= 0x10ffff) {
/* UCS-4 character. Either store directly, or as
surrogate pair. */
#ifdef Py_UNICODE_WIDE
*p++ = (Py_UNICODE) x;
#else
x -= 0x10000L;
*p++ = 0xD800 + (Py_UNICODE) (x >> 10);
*p++ = 0xDC00 + (Py_UNICODE) (x & 0x03FF);
#endif
} else {
endinpos = s-starts;
outpos = p-PyUnicode_AS_UNICODE(v);
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"rawunicodeescape", "\\Uxxxxxxxx out of range",
&starts, &end, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p))
goto onError;
}
nextByte:
;
}
if (_PyUnicode_Resize(&v, p - PyUnicode_AS_UNICODE(v)) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)v;
onError:
Py_XDECREF(v);
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return NULL;
}
PyObject *PyUnicode_EncodeRawUnicodeEscape(const Py_UNICODE *s,
Py_ssize_t size)
{
PyObject *repr;
char *p;
char *q;
#ifdef Py_UNICODE_WIDE
const Py_ssize_t expandsize = 10;
#else
const Py_ssize_t expandsize = 6;
#endif
if (size > PY_SSIZE_T_MAX / expandsize)
return PyErr_NoMemory();
repr = PyBytes_FromStringAndSize(NULL, expandsize * size);
if (repr == NULL)
return NULL;
if (size == 0)
return repr;
p = q = PyBytes_AS_STRING(repr);
while (size-- > 0) {
Py_UNICODE ch = *s++;
#ifdef Py_UNICODE_WIDE
/* Map 32-bit characters to '\Uxxxxxxxx' */
if (ch >= 0x10000) {
*p++ = '\\';
*p++ = 'U';
*p++ = hexdigits[(ch >> 28) & 0xf];
*p++ = hexdigits[(ch >> 24) & 0xf];
*p++ = hexdigits[(ch >> 20) & 0xf];
*p++ = hexdigits[(ch >> 16) & 0xf];
*p++ = hexdigits[(ch >> 12) & 0xf];
*p++ = hexdigits[(ch >> 8) & 0xf];
*p++ = hexdigits[(ch >> 4) & 0xf];
*p++ = hexdigits[ch & 15];
}
else
#else
/* Map UTF-16 surrogate pairs to '\U00xxxxxx' */
if (ch >= 0xD800 && ch < 0xDC00) {
Py_UNICODE ch2;
Py_UCS4 ucs;
ch2 = *s++;
size--;
if (ch2 >= 0xDC00 && ch2 <= 0xDFFF) {
ucs = (((ch & 0x03FF) << 10) | (ch2 & 0x03FF)) + 0x00010000;
*p++ = '\\';
*p++ = 'U';
*p++ = hexdigits[(ucs >> 28) & 0xf];
*p++ = hexdigits[(ucs >> 24) & 0xf];
*p++ = hexdigits[(ucs >> 20) & 0xf];
*p++ = hexdigits[(ucs >> 16) & 0xf];
*p++ = hexdigits[(ucs >> 12) & 0xf];
*p++ = hexdigits[(ucs >> 8) & 0xf];
*p++ = hexdigits[(ucs >> 4) & 0xf];
*p++ = hexdigits[ucs & 0xf];
continue;
}
/* Fall through: isolated surrogates are copied as-is */
s--;
size++;
}
#endif
/* Map 16-bit characters to '\uxxxx' */
if (ch >= 256) {
*p++ = '\\';
*p++ = 'u';
*p++ = hexdigits[(ch >> 12) & 0xf];
*p++ = hexdigits[(ch >> 8) & 0xf];
*p++ = hexdigits[(ch >> 4) & 0xf];
*p++ = hexdigits[ch & 15];
}
/* Copy everything else as-is */
else
*p++ = (char) ch;
}
size = p - q;
assert(size > 0);
if (_PyBytes_Resize(&repr, size) < 0)
return NULL;
return repr;
}
PyObject *PyUnicode_AsRawUnicodeEscapeString(PyObject *unicode)
{
PyObject *s;
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
s = PyUnicode_EncodeRawUnicodeEscape(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode));
return s;
}
/* --- Unicode Internal Codec ------------------------------------------- */
PyObject *_PyUnicode_DecodeUnicodeInternal(const char *s,
Py_ssize_t size,
const char *errors)
{
const char *starts = s;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
PyUnicodeObject *v;
Py_UNICODE *p;
const char *end;
const char *reason;
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
#ifdef Py_UNICODE_WIDE
Py_UNICODE unimax = PyUnicode_GetMax();
#endif
/* XXX overflow detection missing */
v = _PyUnicode_New((size+Py_UNICODE_SIZE-1)/ Py_UNICODE_SIZE);
if (v == NULL)
goto onError;
if (PyUnicode_GetSize((PyObject *)v) == 0)
return (PyObject *)v;
p = PyUnicode_AS_UNICODE(v);
end = s + size;
while (s < end) {
memcpy(p, s, sizeof(Py_UNICODE));
/* We have to sanity check the raw data, otherwise doom looms for
some malformed UCS-4 data. */
if (
#ifdef Py_UNICODE_WIDE
*p > unimax || *p < 0 ||
#endif
end-s < Py_UNICODE_SIZE
)
{
startinpos = s - starts;
if (end-s < Py_UNICODE_SIZE) {
endinpos = end-starts;
reason = "truncated input";
}
else {
endinpos = s - starts + Py_UNICODE_SIZE;
reason = "illegal code point (> 0x10FFFF)";
}
outpos = p - PyUnicode_AS_UNICODE(v);
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"unicode_internal", reason,
&starts, &end, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p)) {
goto onError;
}
}
else {
p++;
s += Py_UNICODE_SIZE;
}
}
if (_PyUnicode_Resize(&v, p - PyUnicode_AS_UNICODE(v)) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)v;
onError:
Py_XDECREF(v);
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return NULL;
}
/* --- Latin-1 Codec ------------------------------------------------------ */
PyObject *PyUnicode_DecodeLatin1(const char *s,
Py_ssize_t size,
const char *errors)
{
PyUnicodeObject *v;
Py_UNICODE *p;
const char *e, *unrolled_end;
/* Latin-1 is equivalent to the first 256 ordinals in Unicode. */
if (size == 1) {
Py_UNICODE r = *(unsigned char*)s;
return PyUnicode_FromUnicode(&r, 1);
}
v = _PyUnicode_New(size);
if (v == NULL)
goto onError;
if (size == 0)
return (PyObject *)v;
p = PyUnicode_AS_UNICODE(v);
e = s + size;
/* Unrolling the copy makes it much faster by reducing the looping
overhead. This is similar to what many memcpy() implementations do. */
unrolled_end = e - 4;
while (s < unrolled_end) {
p[0] = (unsigned char) s[0];
p[1] = (unsigned char) s[1];
p[2] = (unsigned char) s[2];
p[3] = (unsigned char) s[3];
s += 4;
p += 4;
}
while (s < e)
*p++ = (unsigned char) *s++;
return (PyObject *)v;
onError:
Py_XDECREF(v);
return NULL;
}
/* create or adjust a UnicodeEncodeError */
static void make_encode_exception(PyObject **exceptionObject,
const char *encoding,
const Py_UNICODE *unicode, Py_ssize_t size,
Py_ssize_t startpos, Py_ssize_t endpos,
const char *reason)
{
if (*exceptionObject == NULL) {
*exceptionObject = PyUnicodeEncodeError_Create(
encoding, unicode, size, startpos, endpos, reason);
}
else {
if (PyUnicodeEncodeError_SetStart(*exceptionObject, startpos))
goto onError;
if (PyUnicodeEncodeError_SetEnd(*exceptionObject, endpos))
goto onError;
if (PyUnicodeEncodeError_SetReason(*exceptionObject, reason))
goto onError;
return;
onError:
Py_DECREF(*exceptionObject);
*exceptionObject = NULL;
}
}
/* raises a UnicodeEncodeError */
static void raise_encode_exception(PyObject **exceptionObject,
const char *encoding,
const Py_UNICODE *unicode, Py_ssize_t size,
Py_ssize_t startpos, Py_ssize_t endpos,
const char *reason)
{
make_encode_exception(exceptionObject,
encoding, unicode, size, startpos, endpos, reason);
if (*exceptionObject != NULL)
PyCodec_StrictErrors(*exceptionObject);
}
/* error handling callback helper:
build arguments, call the callback and check the arguments,
put the result into newpos and return the replacement string, which
has to be freed by the caller */
static PyObject *unicode_encode_call_errorhandler(const char *errors,
PyObject **errorHandler,
const char *encoding, const char *reason,
const Py_UNICODE *unicode, Py_ssize_t size, PyObject **exceptionObject,
Py_ssize_t startpos, Py_ssize_t endpos,
Py_ssize_t *newpos)
{
static char *argparse = "On;encoding error handler must return (str/bytes, int) tuple";
PyObject *restuple;
PyObject *resunicode;
if (*errorHandler == NULL) {
*errorHandler = PyCodec_LookupError(errors);
if (*errorHandler == NULL)
return NULL;
}
make_encode_exception(exceptionObject,
encoding, unicode, size, startpos, endpos, reason);
if (*exceptionObject == NULL)
return NULL;
restuple = PyObject_CallFunctionObjArgs(
*errorHandler, *exceptionObject, NULL);
if (restuple == NULL)
return NULL;
if (!PyTuple_Check(restuple)) {
PyErr_SetString(PyExc_TypeError, &argparse[3]);
Py_DECREF(restuple);
return NULL;
}
if (!PyArg_ParseTuple(restuple, argparse,
&resunicode, newpos)) {
Py_DECREF(restuple);
return NULL;
}
if (!PyUnicode_Check(resunicode) && !PyBytes_Check(resunicode)) {
PyErr_SetString(PyExc_TypeError, &argparse[3]);
Py_DECREF(restuple);
return NULL;
}
if (*newpos<0)
*newpos = size+*newpos;
if (*newpos<0 || *newpos>size) {
PyErr_Format(PyExc_IndexError, "position %zd from error handler out of bounds", *newpos);
Py_DECREF(restuple);
return NULL;
}
Py_INCREF(resunicode);
Py_DECREF(restuple);
return resunicode;
}
static PyObject *unicode_encode_ucs1(const Py_UNICODE *p,
Py_ssize_t size,
const char *errors,
int limit)
{
/* output object */
PyObject *res;
/* pointers to the beginning and end+1 of input */
const Py_UNICODE *startp = p;
const Py_UNICODE *endp = p + size;
/* pointer to the beginning of the unencodable characters */
/* const Py_UNICODE *badp = NULL; */
/* pointer into the output */
char *str;
/* current output position */
Py_ssize_t ressize;
const char *encoding = (limit == 256) ? "latin-1" : "ascii";
const char *reason = (limit == 256) ? "ordinal not in range(256)" : "ordinal not in range(128)";
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
/* the following variable is used for caching string comparisons
* -1=not initialized, 0=unknown, 1=strict, 2=replace, 3=ignore, 4=xmlcharrefreplace */
int known_errorHandler = -1;
/* allocate enough for a simple encoding without
replacements, if we need more, we'll resize */
if (size == 0)
return PyBytes_FromStringAndSize(NULL, 0);
res = PyBytes_FromStringAndSize(NULL, size);
if (res == NULL)
return NULL;
str = PyBytes_AS_STRING(res);
ressize = size;
while (p<endp) {
Py_UNICODE c = *p;
/* can we encode this? */
if (c<limit) {
/* no overflow check, because we know that the space is enough */
*str++ = (char)c;
++p;
}
else {
Py_ssize_t unicodepos = p-startp;
Py_ssize_t requiredsize;
PyObject *repunicode;
Py_ssize_t repsize;
Py_ssize_t newpos;
Py_ssize_t respos;
Py_UNICODE *uni2;
/* startpos for collecting unencodable chars */
const Py_UNICODE *collstart = p;
const Py_UNICODE *collend = p;
/* find all unecodable characters */
while ((collend < endp) && ((*collend)>=limit))
++collend;
/* cache callback name lookup (if not done yet, i.e. it's the first error) */
if (known_errorHandler==-1) {
if ((errors==NULL) || (!strcmp(errors, "strict")))
known_errorHandler = 1;
else if (!strcmp(errors, "replace"))
known_errorHandler = 2;
else if (!strcmp(errors, "ignore"))
known_errorHandler = 3;
else if (!strcmp(errors, "xmlcharrefreplace"))
known_errorHandler = 4;
else
known_errorHandler = 0;
}
switch (known_errorHandler) {
case 1: /* strict */
raise_encode_exception(&exc, encoding, startp, size, collstart-startp, collend-startp, reason);
goto onError;
case 2: /* replace */
while (collstart++<collend)
*str++ = '?'; /* fall through */
case 3: /* ignore */
p = collend;
break;
case 4: /* xmlcharrefreplace */
respos = str - PyBytes_AS_STRING(res);
/* determine replacement size (temporarily (mis)uses p) */
for (p = collstart, repsize = 0; p < collend; ++p) {
if (*p<10)
repsize += 2+1+1;
else if (*p<100)
repsize += 2+2+1;
else if (*p<1000)
repsize += 2+3+1;
else if (*p<10000)
repsize += 2+4+1;
#ifndef Py_UNICODE_WIDE
else
repsize += 2+5+1;
#else
else if (*p<100000)
repsize += 2+5+1;
else if (*p<1000000)
repsize += 2+6+1;
else
repsize += 2+7+1;
#endif
}
requiredsize = respos+repsize+(endp-collend);
if (requiredsize > ressize) {
if (requiredsize<2*ressize)
requiredsize = 2*ressize;
if (_PyBytes_Resize(&res, requiredsize))
goto onError;
str = PyBytes_AS_STRING(res) + respos;
ressize = requiredsize;
}
/* generate replacement (temporarily (mis)uses p) */
for (p = collstart; p < collend; ++p) {
str += sprintf(str, "&#%d;", (int)*p);
}
p = collend;
break;
default:
repunicode = unicode_encode_call_errorhandler(errors, &errorHandler,
encoding, reason, startp, size, &exc,
collstart-startp, collend-startp, &newpos);
if (repunicode == NULL)
goto onError;
if (PyBytes_Check(repunicode)) {
/* Directly copy bytes result to output. */
repsize = PyBytes_Size(repunicode);
if (repsize > 1) {
/* Make room for all additional bytes. */
respos = str - PyBytes_AS_STRING(res);
if (_PyBytes_Resize(&res, ressize+repsize-1)) {
Py_DECREF(repunicode);
goto onError;
}
str = PyBytes_AS_STRING(res) + respos;
ressize += repsize-1;
}
memcpy(str, PyBytes_AsString(repunicode), repsize);
str += repsize;
p = startp + newpos;
Py_DECREF(repunicode);
break;
}
/* need more space? (at least enough for what we
have+the replacement+the rest of the string, so
we won't have to check space for encodable characters) */
respos = str - PyBytes_AS_STRING(res);
repsize = PyUnicode_GET_SIZE(repunicode);
requiredsize = respos+repsize+(endp-collend);
if (requiredsize > ressize) {
if (requiredsize<2*ressize)
requiredsize = 2*ressize;
if (_PyBytes_Resize(&res, requiredsize)) {
Py_DECREF(repunicode);
goto onError;
}
str = PyBytes_AS_STRING(res) + respos;
ressize = requiredsize;
}
/* check if there is anything unencodable in the replacement
and copy it to the output */
for (uni2 = PyUnicode_AS_UNICODE(repunicode);repsize-->0; ++uni2, ++str) {
c = *uni2;
if (c >= limit) {
raise_encode_exception(&exc, encoding, startp, size,
unicodepos, unicodepos+1, reason);
Py_DECREF(repunicode);
goto onError;
}
*str = (char)c;
}
p = startp + newpos;
Py_DECREF(repunicode);
}
}
}
/* Resize if we allocated to much */
size = str - PyBytes_AS_STRING(res);
if (size < ressize) { /* If this falls res will be NULL */
assert(size >= 0);
if (_PyBytes_Resize(&res, size) < 0)
goto onError;
}
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return res;
onError:
Py_XDECREF(res);
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return NULL;
}
PyObject *PyUnicode_EncodeLatin1(const Py_UNICODE *p,
Py_ssize_t size,
const char *errors)
{
return unicode_encode_ucs1(p, size, errors, 256);
}
PyObject *PyUnicode_AsLatin1String(PyObject *unicode)
{
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
return PyUnicode_EncodeLatin1(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
NULL);
}
/* --- 7-bit ASCII Codec -------------------------------------------------- */
PyObject *PyUnicode_DecodeASCII(const char *s,
Py_ssize_t size,
const char *errors)
{
const char *starts = s;
PyUnicodeObject *v;
Py_UNICODE *p;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
const char *e;
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
/* ASCII is equivalent to the first 128 ordinals in Unicode. */
if (size == 1 && *(unsigned char*)s < 128) {
Py_UNICODE r = *(unsigned char*)s;
return PyUnicode_FromUnicode(&r, 1);
}
v = _PyUnicode_New(size);
if (v == NULL)
goto onError;
if (size == 0)
return (PyObject *)v;
p = PyUnicode_AS_UNICODE(v);
e = s + size;
while (s < e) {
register unsigned char c = (unsigned char)*s;
if (c < 128) {
*p++ = c;
++s;
}
else {
startinpos = s-starts;
endinpos = startinpos + 1;
outpos = p - (Py_UNICODE *)PyUnicode_AS_UNICODE(v);
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"ascii", "ordinal not in range(128)",
&starts, &e, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p))
goto onError;
}
}
if (p - PyUnicode_AS_UNICODE(v) < PyUnicode_GET_SIZE(v))
if (_PyUnicode_Resize(&v, p - PyUnicode_AS_UNICODE(v)) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)v;
onError:
Py_XDECREF(v);
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return NULL;
}
PyObject *PyUnicode_EncodeASCII(const Py_UNICODE *p,
Py_ssize_t size,
const char *errors)
{
return unicode_encode_ucs1(p, size, errors, 128);
}
PyObject *PyUnicode_AsASCIIString(PyObject *unicode)
{
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
return PyUnicode_EncodeASCII(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
NULL);
}
#if defined(MS_WINDOWS) && defined(HAVE_USABLE_WCHAR_T)
/* --- MBCS codecs for Windows -------------------------------------------- */
#if SIZEOF_INT < SIZEOF_SIZE_T
#define NEED_RETRY
#endif
/* XXX This code is limited to "true" double-byte encodings, as
a) it assumes an incomplete character consists of a single byte, and
b) IsDBCSLeadByte (probably) does not work for non-DBCS multi-byte
encodings, see IsDBCSLeadByteEx documentation. */
static int is_dbcs_lead_byte(const char *s, int offset)
{
const char *curr = s + offset;
if (IsDBCSLeadByte(*curr)) {
const char *prev = CharPrev(s, curr);
return (prev == curr) || !IsDBCSLeadByte(*prev) || (curr - prev == 2);
}
return 0;
}
/*
* Decode MBCS string into unicode object. If 'final' is set, converts
* trailing lead-byte too. Returns consumed size if succeed, -1 otherwise.
*/
static int decode_mbcs(PyUnicodeObject **v,
const char *s, /* MBCS string */
int size, /* sizeof MBCS string */
int final,
const char *errors)
{
Py_UNICODE *p;
Py_ssize_t n;
DWORD usize;
DWORD flags;
assert(size >= 0);
/* check and handle 'errors' arg */
if (errors==NULL || strcmp(errors, "strict")==0)
flags = MB_ERR_INVALID_CHARS;
else if (strcmp(errors, "ignore")==0)
flags = 0;
else {
PyErr_Format(PyExc_ValueError,
"mbcs encoding does not support errors='%s'",
errors);
return -1;
}
/* Skip trailing lead-byte unless 'final' is set */
if (!final && size >= 1 && is_dbcs_lead_byte(s, size - 1))
--size;
/* First get the size of the result */
if (size > 0) {
usize = MultiByteToWideChar(CP_ACP, flags, s, size, NULL, 0);
if (usize==0)
goto mbcs_decode_error;
} else
usize = 0;
if (*v == NULL) {
/* Create unicode object */
*v = _PyUnicode_New(usize);
if (*v == NULL)
return -1;
n = 0;
}
else {
/* Extend unicode object */
n = PyUnicode_GET_SIZE(*v);
if (_PyUnicode_Resize(v, n + usize) < 0)
return -1;
}
/* Do the conversion */
if (usize > 0) {
p = PyUnicode_AS_UNICODE(*v) + n;
if (0 == MultiByteToWideChar(CP_ACP, flags, s, size, p, usize)) {
goto mbcs_decode_error;
}
}
return size;
mbcs_decode_error:
/* If the last error was ERROR_NO_UNICODE_TRANSLATION, then
we raise a UnicodeDecodeError - else it is a 'generic'
windows error
*/
if (GetLastError()==ERROR_NO_UNICODE_TRANSLATION) {
/* Ideally, we should get reason from FormatMessage - this
is the Windows 2000 English version of the message
*/
PyObject *exc = NULL;
const char *reason = "No mapping for the Unicode character exists "
"in the target multi-byte code page.";
make_decode_exception(&exc, "mbcs", s, size, 0, 0, reason);
if (exc != NULL) {
PyCodec_StrictErrors(exc);
Py_DECREF(exc);
}
} else {
PyErr_SetFromWindowsErrWithFilename(0, NULL);
}
return -1;
}
PyObject *PyUnicode_DecodeMBCSStateful(const char *s,
Py_ssize_t size,
const char *errors,
Py_ssize_t *consumed)
{
PyUnicodeObject *v = NULL;
int done;
if (consumed)
*consumed = 0;
#ifdef NEED_RETRY
retry:
if (size > INT_MAX)
done = decode_mbcs(&v, s, INT_MAX, 0, errors);
else
#endif
done = decode_mbcs(&v, s, (int)size, !consumed, errors);
if (done < 0) {
Py_XDECREF(v);
return NULL;
}
if (consumed)
*consumed += done;
#ifdef NEED_RETRY
if (size > INT_MAX) {
s += done;
size -= done;
goto retry;
}
#endif
return (PyObject *)v;
}
PyObject *PyUnicode_DecodeMBCS(const char *s,
Py_ssize_t size,
const char *errors)
{
return PyUnicode_DecodeMBCSStateful(s, size, errors, NULL);
}
/*
* Convert unicode into string object (MBCS).
* Returns 0 if succeed, -1 otherwise.
*/
static int encode_mbcs(PyObject **repr,
const Py_UNICODE *p, /* unicode */
int size, /* size of unicode */
const char* errors)
{
BOOL usedDefaultChar = FALSE;
BOOL *pusedDefaultChar;
int mbcssize;
Py_ssize_t n;
PyObject *exc = NULL;
DWORD flags;
assert(size >= 0);
/* check and handle 'errors' arg */
if (errors==NULL || strcmp(errors, "strict")==0) {
flags = WC_NO_BEST_FIT_CHARS;
pusedDefaultChar = &usedDefaultChar;
} else if (strcmp(errors, "replace")==0) {
flags = 0;
pusedDefaultChar = NULL;
} else {
PyErr_Format(PyExc_ValueError,
"mbcs encoding does not support errors='%s'",
errors);
return -1;
}
/* First get the size of the result */
if (size > 0) {
mbcssize = WideCharToMultiByte(CP_ACP, flags, p, size, NULL, 0,
NULL, pusedDefaultChar);
if (mbcssize == 0) {
PyErr_SetFromWindowsErrWithFilename(0, NULL);
return -1;
}
/* If we used a default char, then we failed! */
if (pusedDefaultChar && *pusedDefaultChar)
goto mbcs_encode_error;
} else {
mbcssize = 0;
}
if (*repr == NULL) {
/* Create string object */
*repr = PyBytes_FromStringAndSize(NULL, mbcssize);
if (*repr == NULL)
return -1;
n = 0;
}
else {
/* Extend string object */
n = PyBytes_Size(*repr);
if (_PyBytes_Resize(repr, n + mbcssize) < 0)
return -1;
}
/* Do the conversion */
if (size > 0) {
char *s = PyBytes_AS_STRING(*repr) + n;
if (0 == WideCharToMultiByte(CP_ACP, flags, p, size, s, mbcssize,
NULL, pusedDefaultChar)) {
PyErr_SetFromWindowsErrWithFilename(0, NULL);
return -1;
}
if (pusedDefaultChar && *pusedDefaultChar)
goto mbcs_encode_error;
}
return 0;
mbcs_encode_error:
raise_encode_exception(&exc, "mbcs", p, size, 0, 0, "invalid character");
Py_XDECREF(exc);
return -1;
}
PyObject *PyUnicode_EncodeMBCS(const Py_UNICODE *p,
Py_ssize_t size,
const char *errors)
{
PyObject *repr = NULL;
int ret;
#ifdef NEED_RETRY
retry:
if (size > INT_MAX)
ret = encode_mbcs(&repr, p, INT_MAX, errors);
else
#endif
ret = encode_mbcs(&repr, p, (int)size, errors);
if (ret < 0) {
Py_XDECREF(repr);
return NULL;
}
#ifdef NEED_RETRY
if (size > INT_MAX) {
p += INT_MAX;
size -= INT_MAX;
goto retry;
}
#endif
return repr;
}
PyObject *PyUnicode_AsMBCSString(PyObject *unicode)
{
if (!PyUnicode_Check(unicode)) {
PyErr_BadArgument();
return NULL;
}
return PyUnicode_EncodeMBCS(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
NULL);
}
#undef NEED_RETRY
#endif /* MS_WINDOWS */
/* --- Character Mapping Codec -------------------------------------------- */
PyObject *PyUnicode_DecodeCharmap(const char *s,
Py_ssize_t size,
PyObject *mapping,
const char *errors)
{
const char *starts = s;
Py_ssize_t startinpos;
Py_ssize_t endinpos;
Py_ssize_t outpos;
const char *e;
PyUnicodeObject *v;
Py_UNICODE *p;
Py_ssize_t extrachars = 0;
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
Py_UNICODE *mapstring = NULL;
Py_ssize_t maplen = 0;
/* Default to Latin-1 */
if (mapping == NULL)
return PyUnicode_DecodeLatin1(s, size, errors);
v = _PyUnicode_New(size);
if (v == NULL)
goto onError;
if (size == 0)
return (PyObject *)v;
p = PyUnicode_AS_UNICODE(v);
e = s + size;
if (PyUnicode_CheckExact(mapping)) {
mapstring = PyUnicode_AS_UNICODE(mapping);
maplen = PyUnicode_GET_SIZE(mapping);
while (s < e) {
unsigned char ch = *s;
Py_UNICODE x = 0xfffe; /* illegal value */
if (ch < maplen)
x = mapstring[ch];
if (x == 0xfffe) {
/* undefined mapping */
outpos = p-PyUnicode_AS_UNICODE(v);
startinpos = s-starts;
endinpos = startinpos+1;
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"charmap", "character maps to <undefined>",
&starts, &e, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p)) {
goto onError;
}
continue;
}
*p++ = x;
++s;
}
}
else {
while (s < e) {
unsigned char ch = *s;
PyObject *w, *x;
/* Get mapping (char ordinal -> integer, Unicode char or None) */
w = PyLong_FromLong((long)ch);
if (w == NULL)
goto onError;
x = PyObject_GetItem(mapping, w);
Py_DECREF(w);
if (x == NULL) {
if (PyErr_ExceptionMatches(PyExc_LookupError)) {
/* No mapping found means: mapping is undefined. */
PyErr_Clear();
x = Py_None;
Py_INCREF(x);
} else
goto onError;
}
/* Apply mapping */
if (PyLong_Check(x)) {
long value = PyLong_AS_LONG(x);
if (value < 0 || value > 65535) {
PyErr_SetString(PyExc_TypeError,
"character mapping must be in range(65536)");
Py_DECREF(x);
goto onError;
}
*p++ = (Py_UNICODE)value;
}
else if (x == Py_None) {
/* undefined mapping */
outpos = p-PyUnicode_AS_UNICODE(v);
startinpos = s-starts;
endinpos = startinpos+1;
if (unicode_decode_call_errorhandler(
errors, &errorHandler,
"charmap", "character maps to <undefined>",
&starts, &e, &startinpos, &endinpos, &exc, &s,
&v, &outpos, &p)) {
Py_DECREF(x);
goto onError;
}
Py_DECREF(x);
continue;
}
else if (PyUnicode_Check(x)) {
Py_ssize_t targetsize = PyUnicode_GET_SIZE(x);
if (targetsize == 1)
/* 1-1 mapping */
*p++ = *PyUnicode_AS_UNICODE(x);
else if (targetsize > 1) {
/* 1-n mapping */
if (targetsize > extrachars) {
/* resize first */
Py_ssize_t oldpos = p - PyUnicode_AS_UNICODE(v);
Py_ssize_t needed = (targetsize - extrachars) + \
(targetsize << 2);
extrachars += needed;
/* XXX overflow detection missing */
if (_PyUnicode_Resize(&v,
PyUnicode_GET_SIZE(v) + needed) < 0) {
Py_DECREF(x);
goto onError;
}
p = PyUnicode_AS_UNICODE(v) + oldpos;
}
Py_UNICODE_COPY(p,
PyUnicode_AS_UNICODE(x),
targetsize);
p += targetsize;
extrachars -= targetsize;
}
/* 1-0 mapping: skip the character */
}
else {
/* wrong return value */
PyErr_SetString(PyExc_TypeError,
"character mapping must return integer, None or str");
Py_DECREF(x);
goto onError;
}
Py_DECREF(x);
++s;
}
}
if (p - PyUnicode_AS_UNICODE(v) < PyUnicode_GET_SIZE(v))
if (_PyUnicode_Resize(&v, p - PyUnicode_AS_UNICODE(v)) < 0)
goto onError;
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
return (PyObject *)v;
onError:
Py_XDECREF(errorHandler);
Py_XDECREF(exc);
Py_XDECREF(v);
return NULL;
}
/* Charmap encoding: the lookup table */
struct encoding_map{
PyObject_HEAD
unsigned char level1[32];
int count2, count3;
unsigned char level23[1];
};
static PyObject*
encoding_map_size(PyObject *obj, PyObject* args)
{
struct encoding_map *map = (struct encoding_map*)obj;
return PyLong_FromLong(sizeof(*map) - 1 + 16*map->count2 +
128*map->count3);
}
static PyMethodDef encoding_map_methods[] = {
{"size", encoding_map_size, METH_NOARGS,
PyDoc_STR("Return the size (in bytes) of this object") },
{ 0 }
};
static void
encoding_map_dealloc(PyObject* o)
{
PyObject_FREE(o);
}
static PyTypeObject EncodingMapType = {
PyVarObject_HEAD_INIT(NULL, 0)
"EncodingMap", /*tp_name*/
sizeof(struct encoding_map), /*tp_basicsize*/
0, /*tp_itemsize*/
/* methods */
encoding_map_dealloc, /*tp_dealloc*/
0, /*tp_print*/
0, /*tp_getattr*/
0, /*tp_setattr*/
0, /*tp_reserved*/
0, /*tp_repr*/
0, /*tp_as_number*/
0, /*tp_as_sequence*/
0, /*tp_as_mapping*/
0, /*tp_hash*/
0, /*tp_call*/
0, /*tp_str*/
0, /*tp_getattro*/
0, /*tp_setattro*/
0, /*tp_as_buffer*/
Py_TPFLAGS_DEFAULT, /*tp_flags*/
0, /*tp_doc*/
0, /*tp_traverse*/
0, /*tp_clear*/
0, /*tp_richcompare*/
0, /*tp_weaklistoffset*/
0, /*tp_iter*/
0, /*tp_iternext*/
encoding_map_methods, /*tp_methods*/
0, /*tp_members*/
0, /*tp_getset*/
0, /*tp_base*/
0, /*tp_dict*/
0, /*tp_descr_get*/
0, /*tp_descr_set*/
0, /*tp_dictoffset*/
0, /*tp_init*/
0, /*tp_alloc*/
0, /*tp_new*/
0, /*tp_free*/
0, /*tp_is_gc*/
};
PyObject*
PyUnicode_BuildEncodingMap(PyObject* string)
{
Py_UNICODE *decode;
PyObject *result;
struct encoding_map *mresult;
int i;
int need_dict = 0;
unsigned char level1[32];
unsigned char level2[512];
unsigned char *mlevel1, *mlevel2, *mlevel3;
int count2 = 0, count3 = 0;
if (!PyUnicode_Check(string) || PyUnicode_GetSize(string) != 256) {
PyErr_BadArgument();
return NULL;
}
decode = PyUnicode_AS_UNICODE(string);
memset(level1, 0xFF, sizeof level1);
memset(level2, 0xFF, sizeof level2);
/* If there isn't a one-to-one mapping of NULL to \0,
or if there are non-BMP characters, we need to use
a mapping dictionary. */
if (decode[0] != 0)
need_dict = 1;
for (i = 1; i < 256; i++) {
int l1, l2;
if (decode[i] == 0
#ifdef Py_UNICODE_WIDE
|| decode[i] > 0xFFFF
#endif
) {
need_dict = 1;
break;
}
if (decode[i] == 0xFFFE)
/* unmapped character */
continue;
l1 = decode[i] >> 11;
l2 = decode[i] >> 7;
if (level1[l1] == 0xFF)
level1[l1] = count2++;
if (level2[l2] == 0xFF)
level2[l2] = count3++;
}
if (count2 >= 0xFF || count3 >= 0xFF)
need_dict = 1;
if (need_dict) {
PyObject *result = PyDict_New();
PyObject *key, *value;
if (!result)
return NULL;
for (i = 0; i < 256; i++) {
key = value = NULL;
key = PyLong_FromLong(decode[i]);
value = PyLong_FromLong(i);
if (!key || !value)
goto failed1;
if (PyDict_SetItem(result, key, value) == -1)
goto failed1;
Py_DECREF(key);
Py_DECREF(value);
}
return result;
failed1:
Py_XDECREF(key);
Py_XDECREF(value);
Py_DECREF(result);
return NULL;
}
/* Create a three-level trie */
result = PyObject_MALLOC(sizeof(struct encoding_map) +
16*count2 + 128*count3 - 1);
if (!result)
return PyErr_NoMemory();
PyObject_Init(result, &EncodingMapType);
mresult = (struct encoding_map*)result;
mresult->count2 = count2;
mresult->count3 = count3;
mlevel1 = mresult->level1;
mlevel2 = mresult->level23;
mlevel3 = mresult->level23 + 16*count2;
memcpy(mlevel1, level1, 32);
memset(mlevel2, 0xFF, 16*count2);
memset(mlevel3, 0, 128*count3);
count3 = 0;
for (i = 1; i < 256; i++) {
int o1, o2, o3, i2, i3;
if (decode[i] == 0xFFFE)
/* unmapped character */
continue;
o1 = decode[i]>>11;
o2 = (decode[i]>>7) & 0xF;
i2 = 16*mlevel1[o1] + o2;
if (mlevel2[i2] == 0xFF)
mlevel2[i2] = count3++;
o3 = decode[i] & 0x7F;
i3 = 128*mlevel2[i2] + o3;
mlevel3[i3] = i;
}
return result;
}
static int
encoding_map_lookup(Py_UNICODE c, PyObject *mapping)
{
struct encoding_map *map = (struct encoding_map*)mapping;
int l1 = c>>11;
int l2 = (c>>7) & 0xF;
int l3 = c & 0x7F;
int i;
#ifdef Py_UNICODE_WIDE
if (c > 0xFFFF) {
return -1;
}
#endif
if (c == 0)
return 0;
/* level 1*/
i = map->level1[l1];
if (i == 0xFF) {
return -1;
}
/* level 2*/
i = map->level23[16*i+l2];
if (i == 0xFF) {
return -1;
}
/* level 3 */
i = map->level23[16*map->count2 + 128*i + l3];
if (i == 0) {
return -1;
}
return i;
}
/* Lookup the character ch in the mapping. If the character
can't be found, Py_None is returned (or NULL, if another
error occurred). */
static PyObject *charmapencode_lookup(Py_UNICODE c, PyObject *mapping)
{
PyObject *w = PyLong_FromLong((long)c);
PyObject *x;
if (w == NULL)
return NULL;
x = PyObject_GetItem(mapping, w);
Py_DECREF(w);
if (x == NULL) {
if (PyErr_ExceptionMatches(PyExc_LookupError)) {
/* No mapping found means: mapping is undefined. */
PyErr_Clear();
x = Py_None;
Py_INCREF(x);
return x;
} else
return NULL;
}
else if (x == Py_None)
return x;
else if (PyLong_Check(x)) {
long value = PyLong_AS_LONG(x);
if (value < 0 || value > 255) {
PyErr_SetString(PyExc_TypeError,
"character mapping must be in range(256)");
Py_DECREF(x);
return NULL;
}
return x;
}
else if (PyBytes_Check(x))
return x;
else {
/* wrong return value */
PyErr_Format(PyExc_TypeError,
"character mapping must return integer, bytes or None, not %.400s",
x->ob_type->tp_name);
Py_DECREF(x);
return NULL;
}
}
static int
charmapencode_resize(PyObject **outobj, Py_ssize_t *outpos, Py_ssize_t requiredsize)
{
Py_ssize_t outsize = PyBytes_GET_SIZE(*outobj);
/* exponentially overallocate to minimize reallocations */
if (requiredsize < 2*outsize)
requiredsize = 2*outsize;
if (_PyBytes_Resize(outobj, requiredsize))
return -1;
return 0;
}
typedef enum charmapencode_result {
enc_SUCCESS, enc_FAILED, enc_EXCEPTION
}charmapencode_result;
/* lookup the character, put the result in the output string and adjust
various state variables. Resize the output bytes object if not enough
space is available. Return a new reference to the object that
was put in the output buffer, or Py_None, if the mapping was undefined
(in which case no character was written) or NULL, if a
reallocation error occurred. The caller must decref the result */
static
charmapencode_result charmapencode_output(Py_UNICODE c, PyObject *mapping,
PyObject **outobj, Py_ssize_t *outpos)
{
PyObject *rep;
char *outstart;
Py_ssize_t outsize = PyBytes_GET_SIZE(*outobj);
if (Py_TYPE(mapping) == &EncodingMapType) {
int res = encoding_map_lookup(c, mapping);
Py_ssize_t requiredsize = *outpos+1;
if (res == -1)
return enc_FAILED;
if (outsize<requiredsize)
if (charmapencode_resize(outobj, outpos, requiredsize))
return enc_EXCEPTION;
outstart = PyBytes_AS_STRING(*outobj);
outstart[(*outpos)++] = (char)res;
return enc_SUCCESS;
}
rep = charmapencode_lookup(c, mapping);
if (rep==NULL)
return enc_EXCEPTION;
else if (rep==Py_None) {
Py_DECREF(rep);
return enc_FAILED;
} else {
if (PyLong_Check(rep)) {
Py_ssize_t requiredsize = *outpos+1;
if (outsize<requiredsize)
if (charmapencode_resize(outobj, outpos, requiredsize)) {
Py_DECREF(rep);
return enc_EXCEPTION;
}
outstart = PyBytes_AS_STRING(*outobj);
outstart[(*outpos)++] = (char)PyLong_AS_LONG(rep);
}
else {
const char *repchars = PyBytes_AS_STRING(rep);
Py_ssize_t repsize = PyBytes_GET_SIZE(rep);
Py_ssize_t requiredsize = *outpos+repsize;
if (outsize<requiredsize)
if (charmapencode_resize(outobj, outpos, requiredsize)) {
Py_DECREF(rep);
return enc_EXCEPTION;
}
outstart = PyBytes_AS_STRING(*outobj);
memcpy(outstart + *outpos, repchars, repsize);
*outpos += repsize;
}
}
Py_DECREF(rep);
return enc_SUCCESS;
}
/* handle an error in PyUnicode_EncodeCharmap
Return 0 on success, -1 on error */
static
int charmap_encoding_error(
const Py_UNICODE *p, Py_ssize_t size, Py_ssize_t *inpos, PyObject *mapping,
PyObject **exceptionObject,
int *known_errorHandler, PyObject **errorHandler, const char *errors,
PyObject **res, Py_ssize_t *respos)
{
PyObject *repunicode = NULL; /* initialize to prevent gcc warning */
Py_ssize_t repsize;
Py_ssize_t newpos;
Py_UNICODE *uni2;
/* startpos for collecting unencodable chars */
Py_ssize_t collstartpos = *inpos;
Py_ssize_t collendpos = *inpos+1;
Py_ssize_t collpos;
char *encoding = "charmap";
char *reason = "character maps to <undefined>";
charmapencode_result x;
/* find all unencodable characters */
while (collendpos < size) {
PyObject *rep;
if (Py_TYPE(mapping) == &EncodingMapType) {
int res = encoding_map_lookup(p[collendpos], mapping);
if (res != -1)
break;
++collendpos;
continue;
}
rep = charmapencode_lookup(p[collendpos], mapping);
if (rep==NULL)
return -1;
else if (rep!=Py_None) {
Py_DECREF(rep);
break;
}
Py_DECREF(rep);
++collendpos;
}
/* cache callback name lookup
* (if not done yet, i.e. it's the first error) */
if (*known_errorHandler==-1) {
if ((errors==NULL) || (!strcmp(errors, "strict")))
*known_errorHandler = 1;
else if (!strcmp(errors, "replace"))
*known_errorHandler = 2;
else if (!strcmp(errors, "ignore"))
*known_errorHandler = 3;
else if (!strcmp(errors, "xmlcharrefreplace"))
*known_errorHandler = 4;
else
*known_errorHandler = 0;
}
switch (*known_errorHandler) {
case 1: /* strict */
raise_encode_exception(exceptionObject, encoding, p, size, collstartpos, collendpos, reason);
return -1;
case 2: /* replace */
for (collpos = collstartpos; collpos<collendpos; ++collpos) {
x = charmapencode_output('?', mapping, res, respos);
if (x==enc_EXCEPTION) {
return -1;
}
else if (x==enc_FAILED) {
raise_encode_exception(exceptionObject, encoding, p, size, collstartpos, collendpos, reason);
return -1;
}
}
/* fall through */
case 3: /* ignore */
*inpos = collendpos;
break;
case 4: /* xmlcharrefreplace */
/* generate replacement (temporarily (mis)uses p) */
for (collpos = collstartpos; collpos < collendpos; ++collpos) {
char buffer[2+29+1+1];
char *cp;
sprintf(buffer, "&#%d;", (int)p[collpos]);
for (cp = buffer; *cp; ++cp) {
x = charmapencode_output(*cp, mapping, res, respos);
if (x==enc_EXCEPTION)
return -1;
else if (x==enc_FAILED) {
raise_encode_exception(exceptionObject, encoding, p, size, collstartpos, collendpos, reason);
return -1;
}
}
}
*inpos = collendpos;
break;
default:
repunicode = unicode_encode_call_errorhandler(errors, errorHandler,
encoding, reason, p, size, exceptionObject,
collstartpos, collendpos, &newpos);
if (repunicode == NULL)
return -1;
if (PyBytes_Check(repunicode)) {
/* Directly copy bytes result to output. */
Py_ssize_t outsize = PyBytes_Size(*res);
Py_ssize_t requiredsize;
repsize = PyBytes_Size(repunicode);
requiredsize = *respos + repsize;
if (requiredsize > outsize)
/* Make room for all additional bytes. */
if (charmapencode_resize(res, respos, requiredsize)) {
Py_DECREF(repunicode);
return -1;
}
memcpy(PyBytes_AsString(*res) + *respos,
PyBytes_AsString(repunicode), repsize);
*respos += repsize;
*inpos = newpos;
Py_DECREF(repunicode);
break;
}
/* generate replacement */
repsize = PyUnicode_GET_SIZE(repunicode);
for (uni2 = PyUnicode_AS_UNICODE(repunicode); repsize-->0; ++uni2) {
x = charmapencode_output(*uni2, mapping, res, respos);
if (x==enc_EXCEPTION) {
return -1;
}
else if (x==enc_FAILED) {
Py_DECREF(repunicode);
raise_encode_exception(exceptionObject, encoding, p, size, collstartpos, collendpos, reason);
return -1;
}
}
*inpos = newpos;
Py_DECREF(repunicode);
}
return 0;
}
PyObject *PyUnicode_EncodeCharmap(const Py_UNICODE *p,
Py_ssize_t size,
PyObject *mapping,
const char *errors)
{
/* output object */
PyObject *res = NULL;
/* current input position */
Py_ssize_t inpos = 0;
/* current output position */
Py_ssize_t respos = 0;
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
/* the following variable is used for caching string comparisons
* -1=not initialized, 0=unknown, 1=strict, 2=replace,
* 3=ignore, 4=xmlcharrefreplace */
int known_errorHandler = -1;
/* Default to Latin-1 */
if (mapping == NULL)
return PyUnicode_EncodeLatin1(p, size, errors);
/* allocate enough for a simple encoding without
replacements, if we need more, we'll resize */
res = PyBytes_FromStringAndSize(NULL, size);
if (res == NULL)
goto onError;
if (size == 0)
return res;
while (inpos<size) {
/* try to encode it */
charmapencode_result x = charmapencode_output(p[inpos], mapping, &res, &respos);
if (x==enc_EXCEPTION) /* error */
goto onError;
if (x==enc_FAILED) { /* unencodable character */
if (charmap_encoding_error(p, size, &inpos, mapping,
&exc,
&known_errorHandler, &errorHandler, errors,
&res, &respos)) {
goto onError;
}
}
else
/* done with this character => adjust input position */
++inpos;
}
/* Resize if we allocated to much */
if (respos<PyBytes_GET_SIZE(res))
if (_PyBytes_Resize(&res, respos) < 0)
goto onError;
Py_XDECREF(exc);
Py_XDECREF(errorHandler);
return res;
onError:
Py_XDECREF(res);
Py_XDECREF(exc);
Py_XDECREF(errorHandler);
return NULL;
}
PyObject *PyUnicode_AsCharmapString(PyObject *unicode,
PyObject *mapping)
{
if (!PyUnicode_Check(unicode) || mapping == NULL) {
PyErr_BadArgument();
return NULL;
}
return PyUnicode_EncodeCharmap(PyUnicode_AS_UNICODE(unicode),
PyUnicode_GET_SIZE(unicode),
mapping,
NULL);
}
/* create or adjust a UnicodeTranslateError */
static void make_translate_exception(PyObject **exceptionObject,
const Py_UNICODE *unicode, Py_ssize_t size,
Py_ssize_t startpos, Py_ssize_t endpos,
const char *reason)
{
if (*exceptionObject == NULL) {
*exceptionObject = PyUnicodeTranslateError_Create(
unicode, size, startpos, endpos, reason);
}
else {
if (PyUnicodeTranslateError_SetStart(*exceptionObject, startpos))
goto onError;
if (PyUnicodeTranslateError_SetEnd(*exceptionObject, endpos))
goto onError;
if (PyUnicodeTranslateError_SetReason(*exceptionObject, reason))
goto onError;
return;
onError:
Py_DECREF(*exceptionObject);
*exceptionObject = NULL;
}
}
/* raises a UnicodeTranslateError */
static void raise_translate_exception(PyObject **exceptionObject,
const Py_UNICODE *unicode, Py_ssize_t size,
Py_ssize_t startpos, Py_ssize_t endpos,
const char *reason)
{
make_translate_exception(exceptionObject,
unicode, size, startpos, endpos, reason);
if (*exceptionObject != NULL)
PyCodec_StrictErrors(*exceptionObject);
}
/* error handling callback helper:
build arguments, call the callback and check the arguments,
put the result into newpos and return the replacement string, which
has to be freed by the caller */
static PyObject *unicode_translate_call_errorhandler(const char *errors,
PyObject **errorHandler,
const char *reason,
const Py_UNICODE *unicode, Py_ssize_t size, PyObject **exceptionObject,
Py_ssize_t startpos, Py_ssize_t endpos,
Py_ssize_t *newpos)
{
static char *argparse = "O!n;translating error handler must return (str, int) tuple";
Py_ssize_t i_newpos;
PyObject *restuple;
PyObject *resunicode;
if (*errorHandler == NULL) {
*errorHandler = PyCodec_LookupError(errors);
if (*errorHandler == NULL)
return NULL;
}
make_translate_exception(exceptionObject,
unicode, size, startpos, endpos, reason);
if (*exceptionObject == NULL)
return NULL;
restuple = PyObject_CallFunctionObjArgs(
*errorHandler, *exceptionObject, NULL);
if (restuple == NULL)
return NULL;
if (!PyTuple_Check(restuple)) {
PyErr_SetString(PyExc_TypeError, &argparse[4]);
Py_DECREF(restuple);
return NULL;
}
if (!PyArg_ParseTuple(restuple, argparse, &PyUnicode_Type,
&resunicode, &i_newpos)) {
Py_DECREF(restuple);
return NULL;
}
if (i_newpos<0)
*newpos = size+i_newpos;
else
*newpos = i_newpos;
if (*newpos<0 || *newpos>size) {
PyErr_Format(PyExc_IndexError, "position %zd from error handler out of bounds", *newpos);
Py_DECREF(restuple);
return NULL;
}
Py_INCREF(resunicode);
Py_DECREF(restuple);
return resunicode;
}
/* Lookup the character ch in the mapping and put the result in result,
which must be decrefed by the caller.
Return 0 on success, -1 on error */
static
int charmaptranslate_lookup(Py_UNICODE c, PyObject *mapping, PyObject **result)
{
PyObject *w = PyLong_FromLong((long)c);
PyObject *x;
if (w == NULL)
return -1;
x = PyObject_GetItem(mapping, w);
Py_DECREF(w);
if (x == NULL) {
if (PyErr_ExceptionMatches(PyExc_LookupError)) {
/* No mapping found means: use 1:1 mapping. */
PyErr_Clear();
*result = NULL;
return 0;
} else
return -1;
}
else if (x == Py_None) {
*result = x;
return 0;
}
else if (PyLong_Check(x)) {
long value = PyLong_AS_LONG(x);
long max = PyUnicode_GetMax();
if (value < 0 || value > max) {
PyErr_Format(PyExc_TypeError,
"character mapping must be in range(0x%x)", max+1);
Py_DECREF(x);
return -1;
}
*result = x;
return 0;
}
else if (PyUnicode_Check(x)) {
*result = x;
return 0;
}
else {
/* wrong return value */
PyErr_SetString(PyExc_TypeError,
"character mapping must return integer, None or str");
Py_DECREF(x);
return -1;
}
}
/* ensure that *outobj is at least requiredsize characters long,
if not reallocate and adjust various state variables.
Return 0 on success, -1 on error */
static
int charmaptranslate_makespace(PyObject **outobj, Py_UNICODE **outp,
Py_ssize_t requiredsize)
{
Py_ssize_t oldsize = PyUnicode_GET_SIZE(*outobj);
if (requiredsize > oldsize) {
/* remember old output position */
Py_ssize_t outpos = *outp-PyUnicode_AS_UNICODE(*outobj);
/* exponentially overallocate to minimize reallocations */
if (requiredsize < 2 * oldsize)
requiredsize = 2 * oldsize;
if (PyUnicode_Resize(outobj, requiredsize) < 0)
return -1;
*outp = PyUnicode_AS_UNICODE(*outobj) + outpos;
}
return 0;
}
/* lookup the character, put the result in the output string and adjust
various state variables. Return a new reference to the object that
was put in the output buffer in *result, or Py_None, if the mapping was
undefined (in which case no character was written).
The called must decref result.
Return 0 on success, -1 on error. */
static
int charmaptranslate_output(const Py_UNICODE *startinp, const Py_UNICODE *curinp,
Py_ssize_t insize, PyObject *mapping, PyObject **outobj, Py_UNICODE **outp,
PyObject **res)
{
if (charmaptranslate_lookup(*curinp, mapping, res))
return -1;
if (*res==NULL) {
/* not found => default to 1:1 mapping */
*(*outp)++ = *curinp;
}
else if (*res==Py_None)
;
else if (PyLong_Check(*res)) {
/* no overflow check, because we know that the space is enough */
*(*outp)++ = (Py_UNICODE)PyLong_AS_LONG(*res);
}
else if (PyUnicode_Check(*res)) {
Py_ssize_t repsize = PyUnicode_GET_SIZE(*res);
if (repsize==1) {
/* no overflow check, because we know that the space is enough */
*(*outp)++ = *PyUnicode_AS_UNICODE(*res);
}
else if (repsize!=0) {
/* more than one character */
Py_ssize_t requiredsize = (*outp-PyUnicode_AS_UNICODE(*outobj)) +
(insize - (curinp-startinp)) +
repsize - 1;
if (charmaptranslate_makespace(outobj, outp, requiredsize))
return -1;
memcpy(*outp, PyUnicode_AS_UNICODE(*res), sizeof(Py_UNICODE)*repsize);
*outp += repsize;
}
}
else
return -1;
return 0;
}
PyObject *PyUnicode_TranslateCharmap(const Py_UNICODE *p,
Py_ssize_t size,
PyObject *mapping,
const char *errors)
{
/* output object */
PyObject *res = NULL;
/* pointers to the beginning and end+1 of input */
const Py_UNICODE *startp = p;
const Py_UNICODE *endp = p + size;
/* pointer into the output */
Py_UNICODE *str;
/* current output position */
Py_ssize_t respos = 0;
char *reason = "character maps to <undefined>";
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
/* the following variable is used for caching string comparisons
* -1=not initialized, 0=unknown, 1=strict, 2=replace,
* 3=ignore, 4=xmlcharrefreplace */
int known_errorHandler = -1;
if (mapping == NULL) {
PyErr_BadArgument();
return NULL;
}
/* allocate enough for a simple 1:1 translation without
replacements, if we need more, we'll resize */
res = PyUnicode_FromUnicode(NULL, size);
if (res == NULL)
goto onError;
if (size == 0)
return res;
str = PyUnicode_AS_UNICODE(res);
while (p<endp) {
/* try to encode it */
PyObject *x = NULL;
if (charmaptranslate_output(startp, p, size, mapping, &res, &str, &x)) {
Py_XDECREF(x);
goto onError;
}
Py_XDECREF(x);
if (x!=Py_None) /* it worked => adjust input pointer */
++p;
else { /* untranslatable character */
PyObject *repunicode = NULL; /* initialize to prevent gcc warning */
Py_ssize_t repsize;
Py_ssize_t newpos;
Py_UNICODE *uni2;
/* startpos for collecting untranslatable chars */
const Py_UNICODE *collstart = p;
const Py_UNICODE *collend = p+1;
const Py_UNICODE *coll;
/* find all untranslatable characters */
while (collend < endp) {
if (charmaptranslate_lookup(*collend, mapping, &x))
goto onError;
Py_XDECREF(x);
if (x!=Py_None)
break;
++collend;
}
/* cache callback name lookup
* (if not done yet, i.e. it's the first error) */
if (known_errorHandler==-1) {
if ((errors==NULL) || (!strcmp(errors, "strict")))
known_errorHandler = 1;
else if (!strcmp(errors, "replace"))
known_errorHandler = 2;
else if (!strcmp(errors, "ignore"))
known_errorHandler = 3;
else if (!strcmp(errors, "xmlcharrefreplace"))
known_errorHandler = 4;
else
known_errorHandler = 0;
}
switch (known_errorHandler) {
case 1: /* strict */
raise_translate_exception(&exc, startp, size, collstart-startp, collend-startp, reason);
goto onError;
case 2: /* replace */
/* No need to check for space, this is a 1:1 replacement */
for (coll = collstart; coll<collend; ++coll)
*str++ = '?';
/* fall through */
case 3: /* ignore */
p = collend;
break;
case 4: /* xmlcharrefreplace */
/* generate replacement (temporarily (mis)uses p) */
for (p = collstart; p < collend; ++p) {
char buffer[2+29+1+1];
char *cp;
sprintf(buffer, "&#%d;", (int)*p);
if (charmaptranslate_makespace(&res, &str,
(str-PyUnicode_AS_UNICODE(res))+strlen(buffer)+(endp-collend)))
goto onError;
for (cp = buffer; *cp; ++cp)
*str++ = *cp;
}
p = collend;
break;
default:
repunicode = unicode_translate_call_errorhandler(errors, &errorHandler,
reason, startp, size, &exc,
collstart-startp, collend-startp, &newpos);
if (repunicode == NULL)
goto onError;
/* generate replacement */
repsize = PyUnicode_GET_SIZE(repunicode);
if (charmaptranslate_makespace(&res, &str,
(str-PyUnicode_AS_UNICODE(res))+repsize+(endp-collend))) {
Py_DECREF(repunicode);
goto onError;
}
for (uni2 = PyUnicode_AS_UNICODE(repunicode); repsize-->0; ++uni2)
*str++ = *uni2;
p = startp + newpos;
Py_DECREF(repunicode);
}
}
}
/* Resize if we allocated to much */
respos = str-PyUnicode_AS_UNICODE(res);
if (respos<PyUnicode_GET_SIZE(res)) {
if (PyUnicode_Resize(&res, respos) < 0)
goto onError;
}
Py_XDECREF(exc);
Py_XDECREF(errorHandler);
return res;
onError:
Py_XDECREF(res);
Py_XDECREF(exc);
Py_XDECREF(errorHandler);
return NULL;
}
PyObject *PyUnicode_Translate(PyObject *str,
PyObject *mapping,
const char *errors)
{
PyObject *result;
str = PyUnicode_FromObject(str);
if (str == NULL)
goto onError;
result = PyUnicode_TranslateCharmap(PyUnicode_AS_UNICODE(str),
PyUnicode_GET_SIZE(str),
mapping,
errors);
Py_DECREF(str);
return result;
onError:
Py_XDECREF(str);
return NULL;
}
PyObject *
PyUnicode_TransformDecimalToASCII(Py_UNICODE *s,
Py_ssize_t length)
{
PyObject *result;
Py_UNICODE *p; /* write pointer into result */
Py_ssize_t i;
/* Copy to a new string */
result = (PyObject *)_PyUnicode_New(length);
Py_UNICODE_COPY(PyUnicode_AS_UNICODE(result), s, length);
if (result == NULL)
return result;
p = PyUnicode_AS_UNICODE(result);
/* Iterate over code points */
for (i = 0; i < length; i++) {
Py_UNICODE ch =s[i];
if (ch > 127) {
int decimal = Py_UNICODE_TODECIMAL(ch);
if (decimal >= 0)
p[i] = '0' + decimal;
}
}
return result;
}
/* --- Decimal Encoder ---------------------------------------------------- */
int PyUnicode_EncodeDecimal(Py_UNICODE *s,
Py_ssize_t length,
char *output,
const char *errors)
{
Py_UNICODE *p, *end;
PyObject *errorHandler = NULL;
PyObject *exc = NULL;
const char *encoding = "decimal";
const char *reason = "invalid decimal Unicode string";
/* the following variable is used for caching string comparisons
* -1=not initialized, 0=unknown, 1=strict, 2=replace, 3=ignore, 4=xmlcharrefreplace */
int known_errorHandler = -1;
if (output == NULL) {
PyErr_BadArgument();
return -1;
}
p = s;
end = s + length;
while (p < end) {
register Py_UNICODE ch = *p;
int decimal;
PyObject *repunicode;
Py_ssize_t repsize;
Py_ssize_t newpos;
Py_UNICODE *uni2;
Py_UNICODE *collstart;
Py_UNICODE *collend;
if (Py_UNICODE_ISSPACE(ch)) {
*output++ = ' ';
++p;
continue;
}
decimal = Py_UNICODE_TODECIMAL(ch);
if (decimal >= 0) {
*output++ = '0' + decimal;
++p;
continue;
}
if (0 < ch && ch < 256) {
*output++ = (char)ch;
++p;
continue;
}
/* All other characters are considered unencodable */
collstart = p;
collend = p+1;
while (collend < end) {
if ((0 < *collend && *collend < 256) ||
!Py_UNICODE_ISSPACE(*collend) ||
Py_UNICODE_TODECIMAL(*collend))
break;
}
/* cache callback name lookup
* (if not done yet, i.e. it's the first error) */
if (known_errorHandler==-1) {
if ((errors==NULL) || (!strcmp(errors, "strict")))
known_errorHandler = 1;
else if (!strcmp(errors, "replace"))
known_errorHandler = 2;
else if (!strcmp(errors, "ignore"))
known_errorHandler = 3;
else if (!strcmp(errors, "xmlcharrefreplace"))
known_errorHandler = 4;
else
known_errorHandler = 0;
}
switch (known_errorHandler) {
case 1: /* strict */
raise_encode_exception(&exc, encoding, s, length, collstart-s, collend-s, reason);
goto onError;
case 2: /* replace */
for (p = collstart; p < collend; ++p)
*output++ = '?';
/* fall through */
case 3: /* ignore */
p = collend;
break;
case 4: /* xmlcharrefreplace */
/* generate replacement (temporarily (mis)uses p) */
for (p = collstart; p < collend; ++p)
output += sprintf(output, "&#%d;", (int)*p);
p = collend;
break;
default:
repunicode = unicode_encode_call_errorhandler(errors, &errorHandler,
encoding, reason, s, length, &exc,
collstart-s, collend-s, &newpos);
if (repunicode == NULL)
goto onError;
if (!PyUnicode_Check(repunicode)) {
/* Byte results not supported, since they have no decimal property. */
PyErr_SetString(PyExc_TypeError, "error handler should return unicode");
Py_DECREF(repunicode);
goto onError;
}
/* generate replacement */
repsize = PyUnicode_GET_SIZE(repunicode);
for (uni2 = PyUnicode_AS_UNICODE(repunicode); repsize-->0; ++uni2) {
Py_UNICODE ch = *uni2;
if (Py_UNICODE_ISSPACE(ch))
*output++ = ' ';
else {
decimal = Py_UNICODE_TODECIMAL(ch);
if (decimal >= 0)
*output++ = '0' + decimal;
else if (0 < ch && ch < 256)
*output++ = (char)ch;
else {
Py_DECREF(repunicode);
raise_encode_exception(&exc, encoding,
s, length, collstart-s, collend-s, reason);
goto onError;
}
}
}
p = s + newpos;
Py_DECREF(repunicode);
}
}
/* 0-terminate the output string */
*output++ = '\0';
Py_XDECREF(exc);
Py_XDECREF(errorHandler);
return 0;
onError:
Py_XDECREF(exc);
Py_XDECREF(errorHandler);
return -1;
}
/* --- Helpers ------------------------------------------------------------ */
#include "stringlib/unicodedefs.h"
#include "stringlib/fastsearch.h"
#include "stringlib/count.h"
#include "stringlib/find.h"
#include "stringlib/partition.h"
#include "stringlib/split.h"
#define _Py_InsertThousandsGrouping _PyUnicode_InsertThousandsGrouping
#define _Py_InsertThousandsGroupingLocale _PyUnicode_InsertThousandsGroupingLocale
#include "stringlib/localeutil.h"
/* helper macro to fixup start/end slice values */
#define ADJUST_INDICES(start, end, len) \
if (end > len) \
end = len; \
else if (end < 0) { \
end += len; \
if (end < 0) \
end = 0; \
} \
if (start < 0) { \
start += len; \
if (start < 0) \
start = 0; \
}
Py_ssize_t PyUnicode_Count(PyObject *str,
PyObject *substr,
Py_ssize_t start,
Py_ssize_t end)
{
Py_ssize_t result;
PyUnicodeObject* str_obj;
PyUnicodeObject* sub_obj;
str_obj = (PyUnicodeObject*) PyUnicode_FromObject(str);
if (!str_obj)
return -1;
sub_obj = (PyUnicodeObject*) PyUnicode_FromObject(substr);
if (!sub_obj) {
Py_DECREF(str_obj);
return -1;
}
ADJUST_INDICES(start, end, str_obj->length);
result = stringlib_count(
str_obj->str + start, end - start, sub_obj->str, sub_obj->length,
PY_SSIZE_T_MAX
);
Py_DECREF(sub_obj);
Py_DECREF(str_obj);
return result;
}
Py_ssize_t PyUnicode_Find(PyObject *str,
PyObject *sub,
Py_ssize_t start,
Py_ssize_t end,
int direction)
{
Py_ssize_t result;
str = PyUnicode_FromObject(str);
if (!str)
return -2;
sub = PyUnicode_FromObject(sub);
if (!sub) {
Py_DECREF(str);
return -2;
}
if (direction > 0)
result = stringlib_find_slice(
PyUnicode_AS_UNICODE(str), PyUnicode_GET_SIZE(str),
PyUnicode_AS_UNICODE(sub), PyUnicode_GET_SIZE(sub),
start, end
);
else
result = stringlib_rfind_slice(
PyUnicode_AS_UNICODE(str), PyUnicode_GET_SIZE(str),
PyUnicode_AS_UNICODE(sub), PyUnicode_GET_SIZE(sub),
start, end
);
Py_DECREF(str);
Py_DECREF(sub);
return result;
}
static
int tailmatch(PyUnicodeObject *self,
PyUnicodeObject *substring,
Py_ssize_t start,
Py_ssize_t end,
int direction)
{
if (substring->length == 0)
return 1;
ADJUST_INDICES(start, end, self->length);
end -= substring->length;
if (end < start)
return 0;
if (direction > 0) {
if (Py_UNICODE_MATCH(self, end, substring))
return 1;
} else {
if (Py_UNICODE_MATCH(self, start, substring))
return 1;
}
return 0;
}
Py_ssize_t PyUnicode_Tailmatch(PyObject *str,
PyObject *substr,
Py_ssize_t start,
Py_ssize_t end,
int direction)
{
Py_ssize_t result;
str = PyUnicode_FromObject(str);
if (str == NULL)
return -1;
substr = PyUnicode_FromObject(substr);
if (substr == NULL) {
Py_DECREF(str);
return -1;
}
result = tailmatch((PyUnicodeObject *)str,
(PyUnicodeObject *)substr,
start, end, direction);
Py_DECREF(str);
Py_DECREF(substr);
return result;
}
/* Apply fixfct filter to the Unicode object self and return a
reference to the modified object */
static
PyObject *fixup(PyUnicodeObject *self,
int (*fixfct)(PyUnicodeObject *s))
{
PyUnicodeObject *u;
u = (PyUnicodeObject*) PyUnicode_FromUnicode(NULL, self->length);
if (u == NULL)
return NULL;
Py_UNICODE_COPY(u->str, self->str, self->length);
if (!fixfct(u) && PyUnicode_CheckExact(self)) {
/* fixfct should return TRUE if it modified the buffer. If
FALSE, return a reference to the original buffer instead
(to save space, not time) */
Py_INCREF(self);
Py_DECREF(u);
return (PyObject*) self;
}
return (PyObject*) u;
}
static
int fixupper(PyUnicodeObject *self)
{
Py_ssize_t len = self->length;
Py_UNICODE *s = self->str;
int status = 0;
while (len-- > 0) {
register Py_UNICODE ch;
ch = Py_UNICODE_TOUPPER(*s);
if (ch != *s) {
status = 1;
*s = ch;
}
s++;
}
return status;
}
static
int fixlower(PyUnicodeObject *self)
{
Py_ssize_t len = self->length;
Py_UNICODE *s = self->str;
int status = 0;
while (len-- > 0) {
register Py_UNICODE ch;
ch = Py_UNICODE_TOLOWER(*s);
if (ch != *s) {
status = 1;
*s = ch;
}
s++;
}
return status;
}
static
int fixswapcase(PyUnicodeObject *self)
{
Py_ssize_t len = self->length;
Py_UNICODE *s = self->str;
int status = 0;
while (len-- > 0) {
if (Py_UNICODE_ISUPPER(*s)) {
*s = Py_UNICODE_TOLOWER(*s);
status = 1;
} else if (Py_UNICODE_ISLOWER(*s)) {
*s = Py_UNICODE_TOUPPER(*s);
status = 1;
}
s++;
}
return status;
}
static
int fixcapitalize(PyUnicodeObject *self)
{
Py_ssize_t len = self->length;
Py_UNICODE *s = self->str;
int status = 0;
if (len == 0)
return 0;
if (Py_UNICODE_ISLOWER(*s)) {
*s = Py_UNICODE_TOUPPER(*s);
status = 1;
}
s++;
while (--len > 0) {
if (Py_UNICODE_ISUPPER(*s)) {
*s = Py_UNICODE_TOLOWER(*s);
status = 1;
}
s++;
}
return status;
}
static
int fixtitle(PyUnicodeObject *self)
{
register Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register Py_UNICODE *e;
int previous_is_cased;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1) {
Py_UNICODE ch = Py_UNICODE_TOTITLE(*p);
if (*p != ch) {
*p = ch;
return 1;
}
else
return 0;
}
e = p + PyUnicode_GET_SIZE(self);
previous_is_cased = 0;
for (; p < e; p++) {
register const Py_UNICODE ch = *p;
if (previous_is_cased)
*p = Py_UNICODE_TOLOWER(ch);
else
*p = Py_UNICODE_TOTITLE(ch);
if (Py_UNICODE_ISLOWER(ch) ||
Py_UNICODE_ISUPPER(ch) ||
Py_UNICODE_ISTITLE(ch))
previous_is_cased = 1;
else
previous_is_cased = 0;
}
return 1;
}
PyObject *
PyUnicode_Join(PyObject *separator, PyObject *seq)
{
const Py_UNICODE blank = ' ';
const Py_UNICODE *sep = ␣
Py_ssize_t seplen = 1;
PyUnicodeObject *res = NULL; /* the result */
Py_UNICODE *res_p; /* pointer to free byte in res's string area */
PyObject *fseq; /* PySequence_Fast(seq) */
Py_ssize_t seqlen; /* len(fseq) -- number of items in sequence */
PyObject **items;
PyObject *item;
Py_ssize_t sz, i;
fseq = PySequence_Fast(seq, "");
if (fseq == NULL) {
return NULL;
}
/* NOTE: the following code can't call back into Python code,
* so we are sure that fseq won't be mutated.
*/
seqlen = PySequence_Fast_GET_SIZE(fseq);
/* If empty sequence, return u"". */
if (seqlen == 0) {
res = _PyUnicode_New(0); /* empty sequence; return u"" */
goto Done;
}
items = PySequence_Fast_ITEMS(fseq);
/* If singleton sequence with an exact Unicode, return that. */
if (seqlen == 1) {
item = items[0];
if (PyUnicode_CheckExact(item)) {
Py_INCREF(item);
res = (PyUnicodeObject *)item;
goto Done;
}
}
else {
/* Set up sep and seplen */
if (separator == NULL) {
sep = ␣
seplen = 1;
}
else {
if (!PyUnicode_Check(separator)) {
PyErr_Format(PyExc_TypeError,
"separator: expected str instance,"
" %.80s found",
Py_TYPE(separator)->tp_name);
goto onError;
}
sep = PyUnicode_AS_UNICODE(separator);
seplen = PyUnicode_GET_SIZE(separator);
}
}
/* There are at least two things to join, or else we have a subclass
* of str in the sequence.
* Do a pre-pass to figure out the total amount of space we'll
* need (sz), and see whether all argument are strings.
*/
sz = 0;
for (i = 0; i < seqlen; i++) {
const Py_ssize_t old_sz = sz;
item = items[i];
if (!PyUnicode_Check(item)) {
PyErr_Format(PyExc_TypeError,
"sequence item %zd: expected str instance,"
" %.80s found",
i, Py_TYPE(item)->tp_name);
goto onError;
}
sz += PyUnicode_GET_SIZE(item);
if (i != 0)
sz += seplen;
if (sz < old_sz || sz > PY_SSIZE_T_MAX) {
PyErr_SetString(PyExc_OverflowError,
"join() result is too long for a Python string");
goto onError;
}
}
res = _PyUnicode_New(sz);
if (res == NULL)
goto onError;
/* Catenate everything. */
res_p = PyUnicode_AS_UNICODE(res);
for (i = 0; i < seqlen; ++i) {
Py_ssize_t itemlen;
item = items[i];
itemlen = PyUnicode_GET_SIZE(item);
/* Copy item, and maybe the separator. */
if (i) {
Py_UNICODE_COPY(res_p, sep, seplen);
res_p += seplen;
}
Py_UNICODE_COPY(res_p, PyUnicode_AS_UNICODE(item), itemlen);
res_p += itemlen;
}
Done:
Py_DECREF(fseq);
return (PyObject *)res;
onError:
Py_DECREF(fseq);
Py_XDECREF(res);
return NULL;
}
static
PyUnicodeObject *pad(PyUnicodeObject *self,
Py_ssize_t left,
Py_ssize_t right,
Py_UNICODE fill)
{
PyUnicodeObject *u;
if (left < 0)
left = 0;
if (right < 0)
right = 0;
if (left == 0 && right == 0 && PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return self;
}
if (left > PY_SSIZE_T_MAX - self->length ||
right > PY_SSIZE_T_MAX - (left + self->length)) {
PyErr_SetString(PyExc_OverflowError, "padded string is too long");
return NULL;
}
u = _PyUnicode_New(left + self->length + right);
if (u) {
if (left)
Py_UNICODE_FILL(u->str, fill, left);
Py_UNICODE_COPY(u->str + left, self->str, self->length);
if (right)
Py_UNICODE_FILL(u->str + left + self->length, fill, right);
}
return u;
}
PyObject *PyUnicode_Splitlines(PyObject *string, int keepends)
{
PyObject *list;
string = PyUnicode_FromObject(string);
if (string == NULL)
return NULL;
list = stringlib_splitlines(
(PyObject*) string, PyUnicode_AS_UNICODE(string),
PyUnicode_GET_SIZE(string), keepends);
Py_DECREF(string);
return list;
}
static
PyObject *split(PyUnicodeObject *self,
PyUnicodeObject *substring,
Py_ssize_t maxcount)
{
if (maxcount < 0)
maxcount = PY_SSIZE_T_MAX;
if (substring == NULL)
return stringlib_split_whitespace(
(PyObject*) self, self->str, self->length, maxcount
);
return stringlib_split(
(PyObject*) self, self->str, self->length,
substring->str, substring->length,
maxcount
);
}
static
PyObject *rsplit(PyUnicodeObject *self,
PyUnicodeObject *substring,
Py_ssize_t maxcount)
{
if (maxcount < 0)
maxcount = PY_SSIZE_T_MAX;
if (substring == NULL)
return stringlib_rsplit_whitespace(
(PyObject*) self, self->str, self->length, maxcount
);
return stringlib_rsplit(
(PyObject*) self, self->str, self->length,
substring->str, substring->length,
maxcount
);
}
static
PyObject *replace(PyUnicodeObject *self,
PyUnicodeObject *str1,
PyUnicodeObject *str2,
Py_ssize_t maxcount)
{
PyUnicodeObject *u;
if (maxcount < 0)
maxcount = PY_SSIZE_T_MAX;
else if (maxcount == 0 || self->length == 0)
goto nothing;
if (str1->length == str2->length) {
Py_ssize_t i;
/* same length */
if (str1->length == 0)
goto nothing;
if (str1->length == 1) {
/* replace characters */
Py_UNICODE u1, u2;
if (!findchar(self->str, self->length, str1->str[0]))
goto nothing;
u = (PyUnicodeObject*) PyUnicode_FromUnicode(NULL, self->length);
if (!u)
return NULL;
Py_UNICODE_COPY(u->str, self->str, self->length);
u1 = str1->str[0];
u2 = str2->str[0];
for (i = 0; i < u->length; i++)
if (u->str[i] == u1) {
if (--maxcount < 0)
break;
u->str[i] = u2;
}
} else {
i = stringlib_find(
self->str, self->length, str1->str, str1->length, 0
);
if (i < 0)
goto nothing;
u = (PyUnicodeObject*) PyUnicode_FromUnicode(NULL, self->length);
if (!u)
return NULL;
Py_UNICODE_COPY(u->str, self->str, self->length);
/* change everything in-place, starting with this one */
Py_UNICODE_COPY(u->str+i, str2->str, str2->length);
i += str1->length;
while ( --maxcount > 0) {
i = stringlib_find(self->str+i, self->length-i,
str1->str, str1->length,
i);
if (i == -1)
break;
Py_UNICODE_COPY(u->str+i, str2->str, str2->length);
i += str1->length;
}
}
} else {
Py_ssize_t n, i, j, e;
Py_ssize_t product, new_size, delta;
Py_UNICODE *p;
/* replace strings */
n = stringlib_count(self->str, self->length, str1->str, str1->length,
maxcount);
if (n == 0)
goto nothing;
/* new_size = self->length + n * (str2->length - str1->length)); */
delta = (str2->length - str1->length);
if (delta == 0) {
new_size = self->length;
} else {
product = n * (str2->length - str1->length);
if ((product / (str2->length - str1->length)) != n) {
PyErr_SetString(PyExc_OverflowError,
"replace string is too long");
return NULL;
}
new_size = self->length + product;
if (new_size < 0) {
PyErr_SetString(PyExc_OverflowError,
"replace string is too long");
return NULL;
}
}
u = _PyUnicode_New(new_size);
if (!u)
return NULL;
i = 0;
p = u->str;
e = self->length - str1->length;
if (str1->length > 0) {
while (n-- > 0) {
/* look for next match */
j = stringlib_find(self->str+i, self->length-i,
str1->str, str1->length,
i);
if (j == -1)
break;
else if (j > i) {
/* copy unchanged part [i:j] */
Py_UNICODE_COPY(p, self->str+i, j-i);
p += j - i;
}
/* copy substitution string */
if (str2->length > 0) {
Py_UNICODE_COPY(p, str2->str, str2->length);
p += str2->length;
}
i = j + str1->length;
}
if (i < self->length)
/* copy tail [i:] */
Py_UNICODE_COPY(p, self->str+i, self->length-i);
} else {
/* interleave */
while (n > 0) {
Py_UNICODE_COPY(p, str2->str, str2->length);
p += str2->length;
if (--n <= 0)
break;
*p++ = self->str[i++];
}
Py_UNICODE_COPY(p, self->str+i, self->length-i);
}
}
return (PyObject *) u;
nothing:
/* nothing to replace; return original string (when possible) */
if (PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return (PyObject *) self;
}
return PyUnicode_FromUnicode(self->str, self->length);
}
/* --- Unicode Object Methods --------------------------------------------- */
PyDoc_STRVAR(title__doc__,
"S.title() -> str\n\
\n\
Return a titlecased version of S, i.e. words start with title case\n\
characters, all remaining cased characters have lower case.");
static PyObject*
unicode_title(PyUnicodeObject *self)
{
return fixup(self, fixtitle);
}
PyDoc_STRVAR(capitalize__doc__,
"S.capitalize() -> str\n\
\n\
Return a capitalized version of S, i.e. make the first character\n\
have upper case and the rest lower case.");
static PyObject*
unicode_capitalize(PyUnicodeObject *self)
{
return fixup(self, fixcapitalize);
}
#if 0
PyDoc_STRVAR(capwords__doc__,
"S.capwords() -> str\n\
\n\
Apply .capitalize() to all words in S and return the result with\n\
normalized whitespace (all whitespace strings are replaced by ' ').");
static PyObject*
unicode_capwords(PyUnicodeObject *self)
{
PyObject *list;
PyObject *item;
Py_ssize_t i;
/* Split into words */
list = split(self, NULL, -1);
if (!list)
return NULL;
/* Capitalize each word */
for (i = 0; i < PyList_GET_SIZE(list); i++) {
item = fixup((PyUnicodeObject *)PyList_GET_ITEM(list, i),
fixcapitalize);
if (item == NULL)
goto onError;
Py_DECREF(PyList_GET_ITEM(list, i));
PyList_SET_ITEM(list, i, item);
}
/* Join the words to form a new string */
item = PyUnicode_Join(NULL, list);
onError:
Py_DECREF(list);
return (PyObject *)item;
}
#endif
/* Argument converter. Coerces to a single unicode character */
static int
convert_uc(PyObject *obj, void *addr)
{
Py_UNICODE *fillcharloc = (Py_UNICODE *)addr;
PyObject *uniobj;
Py_UNICODE *unistr;
uniobj = PyUnicode_FromObject(obj);
if (uniobj == NULL) {
PyErr_SetString(PyExc_TypeError,
"The fill character cannot be converted to Unicode");
return 0;
}
if (PyUnicode_GET_SIZE(uniobj) != 1) {
PyErr_SetString(PyExc_TypeError,
"The fill character must be exactly one character long");
Py_DECREF(uniobj);
return 0;
}
unistr = PyUnicode_AS_UNICODE(uniobj);
*fillcharloc = unistr[0];
Py_DECREF(uniobj);
return 1;
}
PyDoc_STRVAR(center__doc__,
"S.center(width[, fillchar]) -> str\n\
\n\
Return S centered in a string of length width. Padding is\n\
done using the specified fill character (default is a space)");
static PyObject *
unicode_center(PyUnicodeObject *self, PyObject *args)
{
Py_ssize_t marg, left;
Py_ssize_t width;
Py_UNICODE fillchar = ' ';
if (!PyArg_ParseTuple(args, "n|O&:center", &width, convert_uc, &fillchar))
return NULL;
if (self->length >= width && PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return (PyObject*) self;
}
marg = width - self->length;
left = marg / 2 + (marg & width & 1);
return (PyObject*) pad(self, left, marg - left, fillchar);
}
#if 0
/* This code should go into some future Unicode collation support
module. The basic comparison should compare ordinals on a naive
basis (this is what Java does and thus Jython too). */
/* speedy UTF-16 code point order comparison */
/* gleaned from: */
/* http://www-4.ibm.com/software/developer/library/utf16.html?dwzone=unicode */
static short utf16Fixup[32] =
{
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0x2000, -0x800, -0x800, -0x800, -0x800
};
static int
unicode_compare(PyUnicodeObject *str1, PyUnicodeObject *str2)
{
Py_ssize_t len1, len2;
Py_UNICODE *s1 = str1->str;
Py_UNICODE *s2 = str2->str;
len1 = str1->length;
len2 = str2->length;
while (len1 > 0 && len2 > 0) {
Py_UNICODE c1, c2;
c1 = *s1++;
c2 = *s2++;
if (c1 > (1<<11) * 26)
c1 += utf16Fixup[c1>>11];
if (c2 > (1<<11) * 26)
c2 += utf16Fixup[c2>>11];
/* now c1 and c2 are in UTF-32-compatible order */
if (c1 != c2)
return (c1 < c2) ? -1 : 1;
len1--; len2--;
}
return (len1 < len2) ? -1 : (len1 != len2);
}
#else
static int
unicode_compare(PyUnicodeObject *str1, PyUnicodeObject *str2)
{
register Py_ssize_t len1, len2;
Py_UNICODE *s1 = str1->str;
Py_UNICODE *s2 = str2->str;
len1 = str1->length;
len2 = str2->length;
while (len1 > 0 && len2 > 0) {
Py_UNICODE c1, c2;
c1 = *s1++;
c2 = *s2++;
if (c1 != c2)
return (c1 < c2) ? -1 : 1;
len1--; len2--;
}
return (len1 < len2) ? -1 : (len1 != len2);
}
#endif
int PyUnicode_Compare(PyObject *left,
PyObject *right)
{
if (PyUnicode_Check(left) && PyUnicode_Check(right))
return unicode_compare((PyUnicodeObject *)left,
(PyUnicodeObject *)right);
PyErr_Format(PyExc_TypeError,
"Can't compare %.100s and %.100s",
left->ob_type->tp_name,
right->ob_type->tp_name);
return -1;
}
int
PyUnicode_CompareWithASCIIString(PyObject* uni, const char* str)
{
int i;
Py_UNICODE *id;
assert(PyUnicode_Check(uni));
id = PyUnicode_AS_UNICODE(uni);
/* Compare Unicode string and source character set string */
for (i = 0; id[i] && str[i]; i++)
if (id[i] != str[i])
return ((int)id[i] < (int)str[i]) ? -1 : 1;
/* This check keeps Python strings that end in '\0' from comparing equal
to C strings identical up to that point. */
if (PyUnicode_GET_SIZE(uni) != i || id[i])
return 1; /* uni is longer */
if (str[i])
return -1; /* str is longer */
return 0;
}
#define TEST_COND(cond) \
((cond) ? Py_True : Py_False)
PyObject *PyUnicode_RichCompare(PyObject *left,
PyObject *right,
int op)
{
int result;
if (PyUnicode_Check(left) && PyUnicode_Check(right)) {
PyObject *v;
if (((PyUnicodeObject *) left)->length !=
((PyUnicodeObject *) right)->length) {
if (op == Py_EQ) {
Py_INCREF(Py_False);
return Py_False;
}
if (op == Py_NE) {
Py_INCREF(Py_True);
return Py_True;
}
}
if (left == right)
result = 0;
else
result = unicode_compare((PyUnicodeObject *)left,
(PyUnicodeObject *)right);
/* Convert the return value to a Boolean */
switch (op) {
case Py_EQ:
v = TEST_COND(result == 0);
break;
case Py_NE:
v = TEST_COND(result != 0);
break;
case Py_LE:
v = TEST_COND(result <= 0);
break;
case Py_GE:
v = TEST_COND(result >= 0);
break;
case Py_LT:
v = TEST_COND(result == -1);
break;
case Py_GT:
v = TEST_COND(result == 1);
break;
default:
PyErr_BadArgument();
return NULL;
}
Py_INCREF(v);
return v;
}
Py_INCREF(Py_NotImplemented);
return Py_NotImplemented;
}
int PyUnicode_Contains(PyObject *container,
PyObject *element)
{
PyObject *str, *sub;
int result;
/* Coerce the two arguments */
sub = PyUnicode_FromObject(element);
if (!sub) {
PyErr_Format(PyExc_TypeError,
"'in <string>' requires string as left operand, not %s",
element->ob_type->tp_name);
return -1;
}
str = PyUnicode_FromObject(container);
if (!str) {
Py_DECREF(sub);
return -1;
}
result = stringlib_contains_obj(str, sub);
Py_DECREF(str);
Py_DECREF(sub);
return result;
}
/* Concat to string or Unicode object giving a new Unicode object. */
PyObject *PyUnicode_Concat(PyObject *left,
PyObject *right)
{
PyUnicodeObject *u = NULL, *v = NULL, *w;
/* Coerce the two arguments */
u = (PyUnicodeObject *)PyUnicode_FromObject(left);
if (u == NULL)
goto onError;
v = (PyUnicodeObject *)PyUnicode_FromObject(right);
if (v == NULL)
goto onError;
/* Shortcuts */
if (v == unicode_empty) {
Py_DECREF(v);
return (PyObject *)u;
}
if (u == unicode_empty) {
Py_DECREF(u);
return (PyObject *)v;
}
/* Concat the two Unicode strings */
w = _PyUnicode_New(u->length + v->length);
if (w == NULL)
goto onError;
Py_UNICODE_COPY(w->str, u->str, u->length);
Py_UNICODE_COPY(w->str + u->length, v->str, v->length);
Py_DECREF(u);
Py_DECREF(v);
return (PyObject *)w;
onError:
Py_XDECREF(u);
Py_XDECREF(v);
return NULL;
}
void
PyUnicode_Append(PyObject **pleft, PyObject *right)
{
PyObject *new;
if (*pleft == NULL)
return;
if (right == NULL || !PyUnicode_Check(*pleft)) {
Py_DECREF(*pleft);
*pleft = NULL;
return;
}
new = PyUnicode_Concat(*pleft, right);
Py_DECREF(*pleft);
*pleft = new;
}
void
PyUnicode_AppendAndDel(PyObject **pleft, PyObject *right)
{
PyUnicode_Append(pleft, right);
Py_XDECREF(right);
}
PyDoc_STRVAR(count__doc__,
"S.count(sub[, start[, end]]) -> int\n\
\n\
Return the number of non-overlapping occurrences of substring sub in\n\
string S[start:end]. Optional arguments start and end are\n\
interpreted as in slice notation.");
static PyObject *
unicode_count(PyUnicodeObject *self, PyObject *args)
{
PyUnicodeObject *substring;
Py_ssize_t start = 0;
Py_ssize_t end = PY_SSIZE_T_MAX;
PyObject *result;
if (!stringlib_parse_args_finds_unicode("count", args, &substring,
&start, &end))
return NULL;
ADJUST_INDICES(start, end, self->length);
result = PyLong_FromSsize_t(
stringlib_count(self->str + start, end - start,
substring->str, substring->length,
PY_SSIZE_T_MAX)
);
Py_DECREF(substring);
return result;
}
PyDoc_STRVAR(encode__doc__,
"S.encode(encoding='utf-8', errors='strict') -> bytes\n\
\n\
Encode S using the codec registered for encoding. Default encoding\n\
is 'utf-8'. errors may be given to set a different error\n\
handling scheme. Default is 'strict' meaning that encoding errors raise\n\
a UnicodeEncodeError. Other possible values are 'ignore', 'replace' and\n\
'xmlcharrefreplace' as well as any other name registered with\n\
codecs.register_error that can handle UnicodeEncodeErrors.");
static PyObject *
unicode_encode(PyUnicodeObject *self, PyObject *args, PyObject *kwargs)
{
static char *kwlist[] = {"encoding", "errors", 0};
char *encoding = NULL;
char *errors = NULL;
if (!PyArg_ParseTupleAndKeywords(args, kwargs, "|ss:encode",
kwlist, &encoding, &errors))
return NULL;
return PyUnicode_AsEncodedString((PyObject *)self, encoding, errors);
}
PyDoc_STRVAR(expandtabs__doc__,
"S.expandtabs([tabsize]) -> str\n\
\n\
Return a copy of S where all tab characters are expanded using spaces.\n\
If tabsize is not given, a tab size of 8 characters is assumed.");
static PyObject*
unicode_expandtabs(PyUnicodeObject *self, PyObject *args)
{
Py_UNICODE *e;
Py_UNICODE *p;
Py_UNICODE *q;
Py_UNICODE *qe;
Py_ssize_t i, j, incr;
PyUnicodeObject *u;
int tabsize = 8;
if (!PyArg_ParseTuple(args, "|i:expandtabs", &tabsize))
return NULL;
/* First pass: determine size of output string */
i = 0; /* chars up to and including most recent \n or \r */
j = 0; /* chars since most recent \n or \r (use in tab calculations) */
e = self->str + self->length; /* end of input */
for (p = self->str; p < e; p++)
if (*p == '\t') {
if (tabsize > 0) {
incr = tabsize - (j % tabsize); /* cannot overflow */
if (j > PY_SSIZE_T_MAX - incr)
goto overflow1;
j += incr;
}
}
else {
if (j > PY_SSIZE_T_MAX - 1)
goto overflow1;
j++;
if (*p == '\n' || *p == '\r') {
if (i > PY_SSIZE_T_MAX - j)
goto overflow1;
i += j;
j = 0;
}
}
if (i > PY_SSIZE_T_MAX - j)
goto overflow1;
/* Second pass: create output string and fill it */
u = _PyUnicode_New(i + j);
if (!u)
return NULL;
j = 0; /* same as in first pass */
q = u->str; /* next output char */
qe = u->str + u->length; /* end of output */
for (p = self->str; p < e; p++)
if (*p == '\t') {
if (tabsize > 0) {
i = tabsize - (j % tabsize);
j += i;
while (i--) {
if (q >= qe)
goto overflow2;
*q++ = ' ';
}
}
}
else {
if (q >= qe)
goto overflow2;
*q++ = *p;
j++;
if (*p == '\n' || *p == '\r')
j = 0;
}
return (PyObject*) u;
overflow2:
Py_DECREF(u);
overflow1:
PyErr_SetString(PyExc_OverflowError, "new string is too long");
return NULL;
}
PyDoc_STRVAR(find__doc__,
"S.find(sub[, start[, end]]) -> int\n\
\n\
Return the lowest index in S where substring sub is found,\n\
such that sub is contained within s[start:end]. Optional\n\
arguments start and end are interpreted as in slice notation.\n\
\n\
Return -1 on failure.");
static PyObject *
unicode_find(PyUnicodeObject *self, PyObject *args)
{
PyUnicodeObject *substring;
Py_ssize_t start;
Py_ssize_t end;
Py_ssize_t result;
if (!stringlib_parse_args_finds_unicode("find", args, &substring,
&start, &end))
return NULL;
result = stringlib_find_slice(
PyUnicode_AS_UNICODE(self), PyUnicode_GET_SIZE(self),
PyUnicode_AS_UNICODE(substring), PyUnicode_GET_SIZE(substring),
start, end
);
Py_DECREF(substring);
return PyLong_FromSsize_t(result);
}
static PyObject *
unicode_getitem(PyUnicodeObject *self, Py_ssize_t index)
{
if (index < 0 || index >= self->length) {
PyErr_SetString(PyExc_IndexError, "string index out of range");
return NULL;
}
return (PyObject*) PyUnicode_FromUnicode(&self->str[index], 1);
}
/* Believe it or not, this produces the same value for ASCII strings
as string_hash(). */
static Py_hash_t
unicode_hash(PyUnicodeObject *self)
{
Py_ssize_t len;
Py_UNICODE *p;
Py_hash_t x;
if (self->hash != -1)
return self->hash;
len = Py_SIZE(self);
p = self->str;
x = *p << 7;
while (--len >= 0)
x = (1000003*x) ^ *p++;
x ^= Py_SIZE(self);
if (x == -1)
x = -2;
self->hash = x;
return x;
}
PyDoc_STRVAR(index__doc__,
"S.index(sub[, start[, end]]) -> int\n\
\n\
Like S.find() but raise ValueError when the substring is not found.");
static PyObject *
unicode_index(PyUnicodeObject *self, PyObject *args)
{
Py_ssize_t result;
PyUnicodeObject *substring;
Py_ssize_t start;
Py_ssize_t end;
if (!stringlib_parse_args_finds_unicode("index", args, &substring,
&start, &end))
return NULL;
result = stringlib_find_slice(
PyUnicode_AS_UNICODE(self), PyUnicode_GET_SIZE(self),
PyUnicode_AS_UNICODE(substring), PyUnicode_GET_SIZE(substring),
start, end
);
Py_DECREF(substring);
if (result < 0) {
PyErr_SetString(PyExc_ValueError, "substring not found");
return NULL;
}
return PyLong_FromSsize_t(result);
}
PyDoc_STRVAR(islower__doc__,
"S.islower() -> bool\n\
\n\
Return True if all cased characters in S are lowercase and there is\n\
at least one cased character in S, False otherwise.");
static PyObject*
unicode_islower(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
int cased;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1)
return PyBool_FromLong(Py_UNICODE_ISLOWER(*p));
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
cased = 0;
for (; p < e; p++) {
register const Py_UNICODE ch = *p;
if (Py_UNICODE_ISUPPER(ch) || Py_UNICODE_ISTITLE(ch))
return PyBool_FromLong(0);
else if (!cased && Py_UNICODE_ISLOWER(ch))
cased = 1;
}
return PyBool_FromLong(cased);
}
PyDoc_STRVAR(isupper__doc__,
"S.isupper() -> bool\n\
\n\
Return True if all cased characters in S are uppercase and there is\n\
at least one cased character in S, False otherwise.");
static PyObject*
unicode_isupper(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
int cased;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1)
return PyBool_FromLong(Py_UNICODE_ISUPPER(*p) != 0);
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
cased = 0;
for (; p < e; p++) {
register const Py_UNICODE ch = *p;
if (Py_UNICODE_ISLOWER(ch) || Py_UNICODE_ISTITLE(ch))
return PyBool_FromLong(0);
else if (!cased && Py_UNICODE_ISUPPER(ch))
cased = 1;
}
return PyBool_FromLong(cased);
}
PyDoc_STRVAR(istitle__doc__,
"S.istitle() -> bool\n\
\n\
Return True if S is a titlecased string and there is at least one\n\
character in S, i.e. upper- and titlecase characters may only\n\
follow uncased characters and lowercase characters only cased ones.\n\
Return False otherwise.");
static PyObject*
unicode_istitle(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
int cased, previous_is_cased;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1)
return PyBool_FromLong((Py_UNICODE_ISTITLE(*p) != 0) ||
(Py_UNICODE_ISUPPER(*p) != 0));
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
cased = 0;
previous_is_cased = 0;
for (; p < e; p++) {
register const Py_UNICODE ch = *p;
if (Py_UNICODE_ISUPPER(ch) || Py_UNICODE_ISTITLE(ch)) {
if (previous_is_cased)
return PyBool_FromLong(0);
previous_is_cased = 1;
cased = 1;
}
else if (Py_UNICODE_ISLOWER(ch)) {
if (!previous_is_cased)
return PyBool_FromLong(0);
previous_is_cased = 1;
cased = 1;
}
else
previous_is_cased = 0;
}
return PyBool_FromLong(cased);
}
PyDoc_STRVAR(isspace__doc__,
"S.isspace() -> bool\n\
\n\
Return True if all characters in S are whitespace\n\
and there is at least one character in S, False otherwise.");
static PyObject*
unicode_isspace(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1 &&
Py_UNICODE_ISSPACE(*p))
return PyBool_FromLong(1);
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
for (; p < e; p++) {
if (!Py_UNICODE_ISSPACE(*p))
return PyBool_FromLong(0);
}
return PyBool_FromLong(1);
}
PyDoc_STRVAR(isalpha__doc__,
"S.isalpha() -> bool\n\
\n\
Return True if all characters in S are alphabetic\n\
and there is at least one character in S, False otherwise.");
static PyObject*
unicode_isalpha(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1 &&
Py_UNICODE_ISALPHA(*p))
return PyBool_FromLong(1);
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
for (; p < e; p++) {
if (!Py_UNICODE_ISALPHA(*p))
return PyBool_FromLong(0);
}
return PyBool_FromLong(1);
}
PyDoc_STRVAR(isalnum__doc__,
"S.isalnum() -> bool\n\
\n\
Return True if all characters in S are alphanumeric\n\
and there is at least one character in S, False otherwise.");
static PyObject*
unicode_isalnum(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1 &&
Py_UNICODE_ISALNUM(*p))
return PyBool_FromLong(1);
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
for (; p < e; p++) {
if (!Py_UNICODE_ISALNUM(*p))
return PyBool_FromLong(0);
}
return PyBool_FromLong(1);
}
PyDoc_STRVAR(isdecimal__doc__,
"S.isdecimal() -> bool\n\
\n\
Return True if there are only decimal characters in S,\n\
False otherwise.");
static PyObject*
unicode_isdecimal(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1 &&
Py_UNICODE_ISDECIMAL(*p))
return PyBool_FromLong(1);
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
for (; p < e; p++) {
if (!Py_UNICODE_ISDECIMAL(*p))
return PyBool_FromLong(0);
}
return PyBool_FromLong(1);
}
PyDoc_STRVAR(isdigit__doc__,
"S.isdigit() -> bool\n\
\n\
Return True if all characters in S are digits\n\
and there is at least one character in S, False otherwise.");
static PyObject*
unicode_isdigit(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1 &&
Py_UNICODE_ISDIGIT(*p))
return PyBool_FromLong(1);
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
for (; p < e; p++) {
if (!Py_UNICODE_ISDIGIT(*p))
return PyBool_FromLong(0);
}
return PyBool_FromLong(1);
}
PyDoc_STRVAR(isnumeric__doc__,
"S.isnumeric() -> bool\n\
\n\
Return True if there are only numeric characters in S,\n\
False otherwise.");
static PyObject*
unicode_isnumeric(PyUnicodeObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1 &&
Py_UNICODE_ISNUMERIC(*p))
return PyBool_FromLong(1);
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return PyBool_FromLong(0);
e = p + PyUnicode_GET_SIZE(self);
for (; p < e; p++) {
if (!Py_UNICODE_ISNUMERIC(*p))
return PyBool_FromLong(0);
}
return PyBool_FromLong(1);
}
int
PyUnicode_IsIdentifier(PyObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE((PyUnicodeObject*)self);
register const Py_UNICODE *e;
/* Special case for empty strings */
if (PyUnicode_GET_SIZE(self) == 0)
return 0;
/* PEP 3131 says that the first character must be in
XID_Start and subsequent characters in XID_Continue,
and for the ASCII range, the 2.x rules apply (i.e
start with letters and underscore, continue with
letters, digits, underscore). However, given the current
definition of XID_Start and XID_Continue, it is sufficient
to check just for these, except that _ must be allowed
as starting an identifier. */
if (!_PyUnicode_IsXidStart(*p) && *p != 0x5F /* LOW LINE */)
return 0;
e = p + PyUnicode_GET_SIZE(self);
for (p++; p < e; p++) {
if (!_PyUnicode_IsXidContinue(*p))
return 0;
}
return 1;
}
PyDoc_STRVAR(isidentifier__doc__,
"S.isidentifier() -> bool\n\
\n\
Return True if S is a valid identifier according\n\
to the language definition.");
static PyObject*
unicode_isidentifier(PyObject *self)
{
return PyBool_FromLong(PyUnicode_IsIdentifier(self));
}
PyDoc_STRVAR(isprintable__doc__,
"S.isprintable() -> bool\n\
\n\
Return True if all characters in S are considered\n\
printable in repr() or S is empty, False otherwise.");
static PyObject*
unicode_isprintable(PyObject *self)
{
register const Py_UNICODE *p = PyUnicode_AS_UNICODE(self);
register const Py_UNICODE *e;
/* Shortcut for single character strings */
if (PyUnicode_GET_SIZE(self) == 1 && Py_UNICODE_ISPRINTABLE(*p)) {
Py_RETURN_TRUE;
}
e = p + PyUnicode_GET_SIZE(self);
for (; p < e; p++) {
if (!Py_UNICODE_ISPRINTABLE(*p)) {
Py_RETURN_FALSE;
}
}
Py_RETURN_TRUE;
}
PyDoc_STRVAR(join__doc__,
"S.join(iterable) -> str\n\
\n\
Return a string which is the concatenation of the strings in the\n\
iterable. The separator between elements is S.");
static PyObject*
unicode_join(PyObject *self, PyObject *data)
{
return PyUnicode_Join(self, data);
}
static Py_ssize_t
unicode_length(PyUnicodeObject *self)
{
return self->length;
}
PyDoc_STRVAR(ljust__doc__,
"S.ljust(width[, fillchar]) -> str\n\
\n\
Return S left-justified in a Unicode string of length width. Padding is\n\
done using the specified fill character (default is a space).");
static PyObject *
unicode_ljust(PyUnicodeObject *self, PyObject *args)
{
Py_ssize_t width;
Py_UNICODE fillchar = ' ';
if (!PyArg_ParseTuple(args, "n|O&:ljust", &width, convert_uc, &fillchar))
return NULL;
if (self->length >= width && PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return (PyObject*) self;
}
return (PyObject*) pad(self, 0, width - self->length, fillchar);
}
PyDoc_STRVAR(lower__doc__,
"S.lower() -> str\n\
\n\
Return a copy of the string S converted to lowercase.");
static PyObject*
unicode_lower(PyUnicodeObject *self)
{
return fixup(self, fixlower);
}
#define LEFTSTRIP 0
#define RIGHTSTRIP 1
#define BOTHSTRIP 2
/* Arrays indexed by above */
static const char *stripformat[] = {"|O:lstrip", "|O:rstrip", "|O:strip"};
#define STRIPNAME(i) (stripformat[i]+3)
/* externally visible for str.strip(unicode) */
PyObject *
_PyUnicode_XStrip(PyUnicodeObject *self, int striptype, PyObject *sepobj)
{
Py_UNICODE *s = PyUnicode_AS_UNICODE(self);
Py_ssize_t len = PyUnicode_GET_SIZE(self);
Py_UNICODE *sep = PyUnicode_AS_UNICODE(sepobj);
Py_ssize_t seplen = PyUnicode_GET_SIZE(sepobj);
Py_ssize_t i, j;
BLOOM_MASK sepmask = make_bloom_mask(sep, seplen);
i = 0;
if (striptype != RIGHTSTRIP) {
while (i < len && BLOOM_MEMBER(sepmask, s[i], sep, seplen)) {
i++;
}
}
j = len;
if (striptype != LEFTSTRIP) {
do {
j--;
} while (j >= i && BLOOM_MEMBER(sepmask, s[j], sep, seplen));
j++;
}
if (i == 0 && j == len && PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return (PyObject*)self;
}
else
return PyUnicode_FromUnicode(s+i, j-i);
}
static PyObject *
do_strip(PyUnicodeObject *self, int striptype)
{
Py_UNICODE *s = PyUnicode_AS_UNICODE(self);
Py_ssize_t len = PyUnicode_GET_SIZE(self), i, j;
i = 0;
if (striptype != RIGHTSTRIP) {
while (i < len && Py_UNICODE_ISSPACE(s[i])) {
i++;
}
}
j = len;
if (striptype != LEFTSTRIP) {
do {
j--;
} while (j >= i && Py_UNICODE_ISSPACE(s[j]));
j++;
}
if (i == 0 && j == len && PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return (PyObject*)self;
}
else
return PyUnicode_FromUnicode(s+i, j-i);
}
static PyObject *
do_argstrip(PyUnicodeObject *self, int striptype, PyObject *args)
{
PyObject *sep = NULL;
if (!PyArg_ParseTuple(args, (char *)stripformat[striptype], &sep))
return NULL;
if (sep != NULL && sep != Py_None) {
if (PyUnicode_Check(sep))
return _PyUnicode_XStrip(self, striptype, sep);
else {
PyErr_Format(PyExc_TypeError,
"%s arg must be None or str",
STRIPNAME(striptype));
return NULL;
}
}
return do_strip(self, striptype);
}
PyDoc_STRVAR(strip__doc__,
"S.strip([chars]) -> str\n\
\n\
Return a copy of the string S with leading and trailing\n\
whitespace removed.\n\
If chars is given and not None, remove characters in chars instead.");
static PyObject *
unicode_strip(PyUnicodeObject *self, PyObject *args)
{
if (PyTuple_GET_SIZE(args) == 0)
return do_strip(self, BOTHSTRIP); /* Common case */
else
return do_argstrip(self, BOTHSTRIP, args);
}
PyDoc_STRVAR(lstrip__doc__,
"S.lstrip([chars]) -> str\n\
\n\
Return a copy of the string S with leading whitespace removed.\n\
If chars is given and not None, remove characters in chars instead.");
static PyObject *
unicode_lstrip(PyUnicodeObject *self, PyObject *args)
{
if (PyTuple_GET_SIZE(args) == 0)
return do_strip(self, LEFTSTRIP); /* Common case */
else
return do_argstrip(self, LEFTSTRIP, args);
}
PyDoc_STRVAR(rstrip__doc__,
"S.rstrip([chars]) -> str\n\
\n\
Return a copy of the string S with trailing whitespace removed.\n\
If chars is given and not None, remove characters in chars instead.");
static PyObject *
unicode_rstrip(PyUnicodeObject *self, PyObject *args)
{
if (PyTuple_GET_SIZE(args) == 0)
return do_strip(self, RIGHTSTRIP); /* Common case */
else
return do_argstrip(self, RIGHTSTRIP, args);
}
static PyObject*
unicode_repeat(PyUnicodeObject *str, Py_ssize_t len)
{
PyUnicodeObject *u;
Py_UNICODE *p;
Py_ssize_t nchars;
size_t nbytes;
if (len < 1) {
Py_INCREF(unicode_empty);
return (PyObject *)unicode_empty;
}
if (len == 1 && PyUnicode_CheckExact(str)) {
/* no repeat, return original string */
Py_INCREF(str);
return (PyObject*) str;
}
/* ensure # of chars needed doesn't overflow int and # of bytes
* needed doesn't overflow size_t
*/
nchars = len * str->length;
if (nchars / len != str->length) {
PyErr_SetString(PyExc_OverflowError,
"repeated string is too long");
return NULL;
}
nbytes = (nchars + 1) * sizeof(Py_UNICODE);
if (nbytes / sizeof(Py_UNICODE) != (size_t)(nchars + 1)) {
PyErr_SetString(PyExc_OverflowError,
"repeated string is too long");
return NULL;
}
u = _PyUnicode_New(nchars);
if (!u)
return NULL;
p = u->str;
if (str->length == 1) {
Py_UNICODE_FILL(p, str->str[0], len);
} else {
Py_ssize_t done = str->length; /* number of characters copied this far */
Py_UNICODE_COPY(p, str->str, str->length);
while (done < nchars) {
Py_ssize_t n = (done <= nchars-done) ? done : nchars-done;
Py_UNICODE_COPY(p+done, p, n);
done += n;
}
}
return (PyObject*) u;
}
PyObject *PyUnicode_Replace(PyObject *obj,
PyObject *subobj,
PyObject *replobj,
Py_ssize_t maxcount)
{
PyObject *self;
PyObject *str1;
PyObject *str2;
PyObject *result;
self = PyUnicode_FromObject(obj);
if (self == NULL)
return NULL;
str1 = PyUnicode_FromObject(subobj);
if (str1 == NULL) {
Py_DECREF(self);
return NULL;
}
str2 = PyUnicode_FromObject(replobj);
if (str2 == NULL) {
Py_DECREF(self);
Py_DECREF(str1);
return NULL;
}
result = replace((PyUnicodeObject *)self,
(PyUnicodeObject *)str1,
(PyUnicodeObject *)str2,
maxcount);
Py_DECREF(self);
Py_DECREF(str1);
Py_DECREF(str2);
return result;
}
PyDoc_STRVAR(replace__doc__,
"S.replace(old, new[, count]) -> str\n\
\n\
Return a copy of S with all occurrences of substring\n\
old replaced by new. If the optional argument count is\n\
given, only the first count occurrences are replaced.");
static PyObject*
unicode_replace(PyUnicodeObject *self, PyObject *args)
{
PyUnicodeObject *str1;
PyUnicodeObject *str2;
Py_ssize_t maxcount = -1;
PyObject *result;
if (!PyArg_ParseTuple(args, "OO|n:replace", &str1, &str2, &maxcount))
return NULL;
str1 = (PyUnicodeObject *)PyUnicode_FromObject((PyObject *)str1);
if (str1 == NULL)
return NULL;
str2 = (PyUnicodeObject *)PyUnicode_FromObject((PyObject *)str2);
if (str2 == NULL) {
Py_DECREF(str1);
return NULL;
}
result = replace(self, str1, str2, maxcount);
Py_DECREF(str1);
Py_DECREF(str2);
return result;
}
static
PyObject *unicode_repr(PyObject *unicode)
{
PyObject *repr;
Py_UNICODE *p;
Py_UNICODE *s = PyUnicode_AS_UNICODE(unicode);
Py_ssize_t size = PyUnicode_GET_SIZE(unicode);
/* XXX(nnorwitz): rather than over-allocating, it would be
better to choose a different scheme. Perhaps scan the
first N-chars of the string and allocate based on that size.
*/
/* Initial allocation is based on the longest-possible unichr
escape.
In wide (UTF-32) builds '\U00xxxxxx' is 10 chars per source
unichr, so in this case it's the longest unichr escape. In
narrow (UTF-16) builds this is five chars per source unichr
since there are two unichrs in the surrogate pair, so in narrow
(UTF-16) builds it's not the longest unichr escape.
In wide or narrow builds '\uxxxx' is 6 chars per source unichr,
so in the narrow (UTF-16) build case it's the longest unichr
escape.
*/
repr = PyUnicode_FromUnicode(NULL,
2 /* quotes */
#ifdef Py_UNICODE_WIDE
+ 10*size
#else
+ 6*size
#endif
+ 1);
if (repr == NULL)
return NULL;
p = PyUnicode_AS_UNICODE(repr);
/* Add quote */
*p++ = (findchar(s, size, '\'') &&
!findchar(s, size, '"')) ? '"' : '\'';
while (size-- > 0) {
Py_UNICODE ch = *s++;
/* Escape quotes and backslashes */
if ((ch == PyUnicode_AS_UNICODE(repr)[0]) || (ch == '\\')) {
*p++ = '\\';
*p++ = ch;
continue;
}
/* Map special whitespace to '\t', \n', '\r' */
if (ch == '\t') {
*p++ = '\\';
*p++ = 't';
}
else if (ch == '\n') {
*p++ = '\\';
*p++ = 'n';
}
else if (ch == '\r') {
*p++ = '\\';
*p++ = 'r';
}
/* Map non-printable US ASCII to '\xhh' */
else if (ch < ' ' || ch == 0x7F) {
*p++ = '\\';
*p++ = 'x';
*p++ = hexdigits[(ch >> 4) & 0x000F];
*p++ = hexdigits[ch & 0x000F];
}
/* Copy ASCII characters as-is */
else if (ch < 0x7F) {
*p++ = ch;
}
/* Non-ASCII characters */
else {
Py_UCS4 ucs = ch;
#ifndef Py_UNICODE_WIDE
Py_UNICODE ch2 = 0;
/* Get code point from surrogate pair */
if (size > 0) {
ch2 = *s;
if (ch >= 0xD800 && ch < 0xDC00 && ch2 >= 0xDC00
&& ch2 <= 0xDFFF) {
ucs = (((ch & 0x03FF) << 10) | (ch2 & 0x03FF))
+ 0x00010000;
s++;
size--;
}
}
#endif
/* Map Unicode whitespace and control characters
(categories Z* and C* except ASCII space)
*/
if (!Py_UNICODE_ISPRINTABLE(ucs)) {
/* Map 8-bit characters to '\xhh' */
if (ucs <= 0xff) {
*p++ = '\\';
*p++ = 'x';
*p++ = hexdigits[(ch >> 4) & 0x000F];
*p++ = hexdigits[ch & 0x000F];
}
/* Map 21-bit characters to '\U00xxxxxx' */
else if (ucs >= 0x10000) {
*p++ = '\\';
*p++ = 'U';
*p++ = hexdigits[(ucs >> 28) & 0x0000000F];
*p++ = hexdigits[(ucs >> 24) & 0x0000000F];
*p++ = hexdigits[(ucs >> 20) & 0x0000000F];
*p++ = hexdigits[(ucs >> 16) & 0x0000000F];
*p++ = hexdigits[(ucs >> 12) & 0x0000000F];
*p++ = hexdigits[(ucs >> 8) & 0x0000000F];
*p++ = hexdigits[(ucs >> 4) & 0x0000000F];
*p++ = hexdigits[ucs & 0x0000000F];
}
/* Map 16-bit characters to '\uxxxx' */
else {
*p++ = '\\';
*p++ = 'u';
*p++ = hexdigits[(ucs >> 12) & 0x000F];
*p++ = hexdigits[(ucs >> 8) & 0x000F];
*p++ = hexdigits[(ucs >> 4) & 0x000F];
*p++ = hexdigits[ucs & 0x000F];
}
}
/* Copy characters as-is */
else {
*p++ = ch;
#ifndef Py_UNICODE_WIDE
if (ucs >= 0x10000)
*p++ = ch2;
#endif
}
}
}
/* Add quote */
*p++ = PyUnicode_AS_UNICODE(repr)[0];
*p = '\0';
PyUnicode_Resize(&repr, p - PyUnicode_AS_UNICODE(repr));
return repr;
}
PyDoc_STRVAR(rfind__doc__,
"S.rfind(sub[, start[, end]]) -> int\n\
\n\
Return the highest index in S where substring sub is found,\n\
such that sub is contained within s[start:end]. Optional\n\
arguments start and end are interpreted as in slice notation.\n\
\n\
Return -1 on failure.");
static PyObject *
unicode_rfind(PyUnicodeObject *self, PyObject *args)
{
PyUnicodeObject *substring;
Py_ssize_t start;
Py_ssize_t end;
Py_ssize_t result;
if (!stringlib_parse_args_finds_unicode("rfind", args, &substring,
&start, &end))
return NULL;
result = stringlib_rfind_slice(
PyUnicode_AS_UNICODE(self), PyUnicode_GET_SIZE(self),
PyUnicode_AS_UNICODE(substring), PyUnicode_GET_SIZE(substring),
start, end
);
Py_DECREF(substring);
return PyLong_FromSsize_t(result);
}
PyDoc_STRVAR(rindex__doc__,
"S.rindex(sub[, start[, end]]) -> int\n\
\n\
Like S.rfind() but raise ValueError when the substring is not found.");
static PyObject *
unicode_rindex(PyUnicodeObject *self, PyObject *args)
{
PyUnicodeObject *substring;
Py_ssize_t start;
Py_ssize_t end;
Py_ssize_t result;
if (!stringlib_parse_args_finds_unicode("rindex", args, &substring,
&start, &end))
return NULL;
result = stringlib_rfind_slice(
PyUnicode_AS_UNICODE(self), PyUnicode_GET_SIZE(self),
PyUnicode_AS_UNICODE(substring), PyUnicode_GET_SIZE(substring),
start, end
);
Py_DECREF(substring);
if (result < 0) {
PyErr_SetString(PyExc_ValueError, "substring not found");
return NULL;
}
return PyLong_FromSsize_t(result);
}
PyDoc_STRVAR(rjust__doc__,
"S.rjust(width[, fillchar]) -> str\n\
\n\
Return S right-justified in a string of length width. Padding is\n\
done using the specified fill character (default is a space).");
static PyObject *
unicode_rjust(PyUnicodeObject *self, PyObject *args)
{
Py_ssize_t width;
Py_UNICODE fillchar = ' ';
if (!PyArg_ParseTuple(args, "n|O&:rjust", &width, convert_uc, &fillchar))
return NULL;
if (self->length >= width && PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return (PyObject*) self;
}
return (PyObject*) pad(self, width - self->length, 0, fillchar);
}
PyObject *PyUnicode_Split(PyObject *s,
PyObject *sep,
Py_ssize_t maxsplit)
{
PyObject *result;
s = PyUnicode_FromObject(s);
if (s == NULL)
return NULL;
if (sep != NULL) {
sep = PyUnicode_FromObject(sep);
if (sep == NULL) {
Py_DECREF(s);
return NULL;
}
}
result = split((PyUnicodeObject *)s, (PyUnicodeObject *)sep, maxsplit);
Py_DECREF(s);
Py_XDECREF(sep);
return result;
}
PyDoc_STRVAR(split__doc__,
"S.split([sep[, maxsplit]]) -> list of strings\n\
\n\
Return a list of the words in S, using sep as the\n\
delimiter string. If maxsplit is given, at most maxsplit\n\
splits are done. If sep is not specified or is None, any\n\
whitespace string is a separator and empty strings are\n\
removed from the result.");
static PyObject*
unicode_split(PyUnicodeObject *self, PyObject *args)
{
PyObject *substring = Py_None;
Py_ssize_t maxcount = -1;
if (!PyArg_ParseTuple(args, "|On:split", &substring, &maxcount))
return NULL;
if (substring == Py_None)
return split(self, NULL, maxcount);
else if (PyUnicode_Check(substring))
return split(self, (PyUnicodeObject *)substring, maxcount);
else
return PyUnicode_Split((PyObject *)self, substring, maxcount);
}
PyObject *
PyUnicode_Partition(PyObject *str_in, PyObject *sep_in)
{
PyObject* str_obj;
PyObject* sep_obj;
PyObject* out;
str_obj = PyUnicode_FromObject(str_in);
if (!str_obj)
return NULL;
sep_obj = PyUnicode_FromObject(sep_in);
if (!sep_obj) {
Py_DECREF(str_obj);
return NULL;
}
out = stringlib_partition(
str_obj, PyUnicode_AS_UNICODE(str_obj), PyUnicode_GET_SIZE(str_obj),
sep_obj, PyUnicode_AS_UNICODE(sep_obj), PyUnicode_GET_SIZE(sep_obj)
);
Py_DECREF(sep_obj);
Py_DECREF(str_obj);
return out;
}
PyObject *
PyUnicode_RPartition(PyObject *str_in, PyObject *sep_in)
{
PyObject* str_obj;
PyObject* sep_obj;
PyObject* out;
str_obj = PyUnicode_FromObject(str_in);
if (!str_obj)
return NULL;
sep_obj = PyUnicode_FromObject(sep_in);
if (!sep_obj) {
Py_DECREF(str_obj);
return NULL;
}
out = stringlib_rpartition(
str_obj, PyUnicode_AS_UNICODE(str_obj), PyUnicode_GET_SIZE(str_obj),
sep_obj, PyUnicode_AS_UNICODE(sep_obj), PyUnicode_GET_SIZE(sep_obj)
);
Py_DECREF(sep_obj);
Py_DECREF(str_obj);
return out;
}
PyDoc_STRVAR(partition__doc__,
"S.partition(sep) -> (head, sep, tail)\n\
\n\
Search for the separator sep in S, and return the part before it,\n\
the separator itself, and the part after it. If the separator is not\n\
found, return S and two empty strings.");
static PyObject*
unicode_partition(PyUnicodeObject *self, PyObject *separator)
{
return PyUnicode_Partition((PyObject *)self, separator);
}
PyDoc_STRVAR(rpartition__doc__,
"S.rpartition(sep) -> (head, sep, tail)\n\
\n\
Search for the separator sep in S, starting at the end of S, and return\n\
the part before it, the separator itself, and the part after it. If the\n\
separator is not found, return two empty strings and S.");
static PyObject*
unicode_rpartition(PyUnicodeObject *self, PyObject *separator)
{
return PyUnicode_RPartition((PyObject *)self, separator);
}
PyObject *PyUnicode_RSplit(PyObject *s,
PyObject *sep,
Py_ssize_t maxsplit)
{
PyObject *result;
s = PyUnicode_FromObject(s);
if (s == NULL)
return NULL;
if (sep != NULL) {
sep = PyUnicode_FromObject(sep);
if (sep == NULL) {
Py_DECREF(s);
return NULL;
}
}
result = rsplit((PyUnicodeObject *)s, (PyUnicodeObject *)sep, maxsplit);
Py_DECREF(s);
Py_XDECREF(sep);
return result;
}
PyDoc_STRVAR(rsplit__doc__,
"S.rsplit([sep[, maxsplit]]) -> list of strings\n\
\n\
Return a list of the words in S, using sep as the\n\
delimiter string, starting at the end of the string and\n\
working to the front. If maxsplit is given, at most maxsplit\n\
splits are done. If sep is not specified, any whitespace string\n\
is a separator.");
static PyObject*
unicode_rsplit(PyUnicodeObject *self, PyObject *args)
{
PyObject *substring = Py_None;
Py_ssize_t maxcount = -1;
if (!PyArg_ParseTuple(args, "|On:rsplit", &substring, &maxcount))
return NULL;
if (substring == Py_None)
return rsplit(self, NULL, maxcount);
else if (PyUnicode_Check(substring))
return rsplit(self, (PyUnicodeObject *)substring, maxcount);
else
return PyUnicode_RSplit((PyObject *)self, substring, maxcount);
}
PyDoc_STRVAR(splitlines__doc__,
"S.splitlines([keepends]) -> list of strings\n\
\n\
Return a list of the lines in S, breaking at line boundaries.\n\
Line breaks are not included in the resulting list unless keepends\n\
is given and true.");
static PyObject*
unicode_splitlines(PyUnicodeObject *self, PyObject *args)
{
int keepends = 0;
if (!PyArg_ParseTuple(args, "|i:splitlines", &keepends))
return NULL;
return PyUnicode_Splitlines((PyObject *)self, keepends);
}
static
PyObject *unicode_str(PyObject *self)
{
if (PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return self;
} else
/* Subtype -- return genuine unicode string with the same value. */
return PyUnicode_FromUnicode(PyUnicode_AS_UNICODE(self),
PyUnicode_GET_SIZE(self));
}
PyDoc_STRVAR(swapcase__doc__,
"S.swapcase() -> str\n\
\n\
Return a copy of S with uppercase characters converted to lowercase\n\
and vice versa.");
static PyObject*
unicode_swapcase(PyUnicodeObject *self)
{
return fixup(self, fixswapcase);
}
PyDoc_STRVAR(maketrans__doc__,
"str.maketrans(x[, y[, z]]) -> dict (static method)\n\
\n\
Return a translation table usable for str.translate().\n\
If there is only one argument, it must be a dictionary mapping Unicode\n\
ordinals (integers) or characters to Unicode ordinals, strings or None.\n\
Character keys will be then converted to ordinals.\n\
If there are two arguments, they must be strings of equal length, and\n\
in the resulting dictionary, each character in x will be mapped to the\n\
character at the same position in y. If there is a third argument, it\n\
must be a string, whose characters will be mapped to None in the result.");
static PyObject*
unicode_maketrans(PyUnicodeObject *null, PyObject *args)
{
PyObject *x, *y = NULL, *z = NULL;
PyObject *new = NULL, *key, *value;
Py_ssize_t i = 0;
int res;
if (!PyArg_ParseTuple(args, "O|UU:maketrans", &x, &y, &z))
return NULL;
new = PyDict_New();
if (!new)
return NULL;
if (y != NULL) {
/* x must be a string too, of equal length */
Py_ssize_t ylen = PyUnicode_GET_SIZE(y);
if (!PyUnicode_Check(x)) {
PyErr_SetString(PyExc_TypeError, "first maketrans argument must "
"be a string if there is a second argument");
goto err;
}
if (PyUnicode_GET_SIZE(x) != ylen) {
PyErr_SetString(PyExc_ValueError, "the first two maketrans "
"arguments must have equal length");
goto err;
}
/* create entries for translating chars in x to those in y */
for (i = 0; i < PyUnicode_GET_SIZE(x); i++) {
key = PyLong_FromLong(PyUnicode_AS_UNICODE(x)[i]);
value = PyLong_FromLong(PyUnicode_AS_UNICODE(y)[i]);
if (!key || !value)
goto err;
res = PyDict_SetItem(new, key, value);
Py_DECREF(key);
Py_DECREF(value);
if (res < 0)
goto err;
}
/* create entries for deleting chars in z */
if (z != NULL) {
for (i = 0; i < PyUnicode_GET_SIZE(z); i++) {
key = PyLong_FromLong(PyUnicode_AS_UNICODE(z)[i]);
if (!key)
goto err;
res = PyDict_SetItem(new, key, Py_None);
Py_DECREF(key);
if (res < 0)
goto err;
}
}
} else {
/* x must be a dict */
if (!PyDict_CheckExact(x)) {
PyErr_SetString(PyExc_TypeError, "if you give only one argument "
"to maketrans it must be a dict");
goto err;
}
/* copy entries into the new dict, converting string keys to int keys */
while (PyDict_Next(x, &i, &key, &value)) {
if (PyUnicode_Check(key)) {
/* convert string keys to integer keys */
PyObject *newkey;
if (PyUnicode_GET_SIZE(key) != 1) {
PyErr_SetString(PyExc_ValueError, "string keys in translate "
"table must be of length 1");
goto err;
}
newkey = PyLong_FromLong(PyUnicode_AS_UNICODE(key)[0]);
if (!newkey)
goto err;
res = PyDict_SetItem(new, newkey, value);
Py_DECREF(newkey);
if (res < 0)
goto err;
} else if (PyLong_Check(key)) {
/* just keep integer keys */
if (PyDict_SetItem(new, key, value) < 0)
goto err;
} else {
PyErr_SetString(PyExc_TypeError, "keys in translate table must "
"be strings or integers");
goto err;
}
}
}
return new;
err:
Py_DECREF(new);
return NULL;
}
PyDoc_STRVAR(translate__doc__,
"S.translate(table) -> str\n\
\n\
Return a copy of the string S, where all characters have been mapped\n\
through the given translation table, which must be a mapping of\n\
Unicode ordinals to Unicode ordinals, strings, or None.\n\
Unmapped characters are left untouched. Characters mapped to None\n\
are deleted.");
static PyObject*
unicode_translate(PyUnicodeObject *self, PyObject *table)
{
return PyUnicode_TranslateCharmap(self->str, self->length, table, "ignore");
}
PyDoc_STRVAR(upper__doc__,
"S.upper() -> str\n\
\n\
Return a copy of S converted to uppercase.");
static PyObject*
unicode_upper(PyUnicodeObject *self)
{
return fixup(self, fixupper);
}
PyDoc_STRVAR(zfill__doc__,
"S.zfill(width) -> str\n\
\n\
Pad a numeric string S with zeros on the left, to fill a field\n\
of the specified width. The string S is never truncated.");
static PyObject *
unicode_zfill(PyUnicodeObject *self, PyObject *args)
{
Py_ssize_t fill;
PyUnicodeObject *u;
Py_ssize_t width;
if (!PyArg_ParseTuple(args, "n:zfill", &width))
return NULL;
if (self->length >= width) {
if (PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return (PyObject*) self;
}
else
return PyUnicode_FromUnicode(
PyUnicode_AS_UNICODE(self),
PyUnicode_GET_SIZE(self)
);
}
fill = width - self->length;
u = pad(self, fill, 0, '0');
if (u == NULL)
return NULL;
if (u->str[fill] == '+' || u->str[fill] == '-') {
/* move sign to beginning of string */
u->str[0] = u->str[fill];
u->str[fill] = '0';
}
return (PyObject*) u;
}
#if 0
static PyObject*
unicode_freelistsize(PyUnicodeObject *self)
{
return PyLong_FromLong(numfree);
}
static PyObject *
unicode__decimal2ascii(PyObject *self)
{
return PyUnicode_TransformDecimalToASCII(PyUnicode_AS_UNICODE(self),
PyUnicode_GET_SIZE(self));
}
#endif
PyDoc_STRVAR(startswith__doc__,
"S.startswith(prefix[, start[, end]]) -> bool\n\
\n\
Return True if S starts with the specified prefix, False otherwise.\n\
With optional start, test S beginning at that position.\n\
With optional end, stop comparing S at that position.\n\
prefix can also be a tuple of strings to try.");
static PyObject *
unicode_startswith(PyUnicodeObject *self,
PyObject *args)
{
PyObject *subobj;
PyUnicodeObject *substring;
Py_ssize_t start = 0;
Py_ssize_t end = PY_SSIZE_T_MAX;
int result;
if (!stringlib_parse_args_finds("startswith", args, &subobj, &start, &end))
return NULL;
if (PyTuple_Check(subobj)) {
Py_ssize_t i;
for (i = 0; i < PyTuple_GET_SIZE(subobj); i++) {
substring = (PyUnicodeObject *)PyUnicode_FromObject(
PyTuple_GET_ITEM(subobj, i));
if (substring == NULL)
return NULL;
result = tailmatch(self, substring, start, end, -1);
Py_DECREF(substring);
if (result) {
Py_RETURN_TRUE;
}
}
/* nothing matched */
Py_RETURN_FALSE;
}
substring = (PyUnicodeObject *)PyUnicode_FromObject(subobj);
if (substring == NULL) {
if (PyErr_ExceptionMatches(PyExc_TypeError))
PyErr_Format(PyExc_TypeError, "startswith first arg must be str or "
"a tuple of str, not %s", Py_TYPE(subobj)->tp_name);
return NULL;
}
result = tailmatch(self, substring, start, end, -1);
Py_DECREF(substring);
return PyBool_FromLong(result);
}
PyDoc_STRVAR(endswith__doc__,
"S.endswith(suffix[, start[, end]]) -> bool\n\
\n\
Return True if S ends with the specified suffix, False otherwise.\n\
With optional start, test S beginning at that position.\n\
With optional end, stop comparing S at that position.\n\
suffix can also be a tuple of strings to try.");
static PyObject *
unicode_endswith(PyUnicodeObject *self,
PyObject *args)
{
PyObject *subobj;
PyUnicodeObject *substring;
Py_ssize_t start = 0;
Py_ssize_t end = PY_SSIZE_T_MAX;
int result;
if (!stringlib_parse_args_finds("endswith", args, &subobj, &start, &end))
return NULL;
if (PyTuple_Check(subobj)) {
Py_ssize_t i;
for (i = 0; i < PyTuple_GET_SIZE(subobj); i++) {
substring = (PyUnicodeObject *)PyUnicode_FromObject(
PyTuple_GET_ITEM(subobj, i));
if (substring == NULL)
return NULL;
result = tailmatch(self, substring, start, end, +1);
Py_DECREF(substring);
if (result) {
Py_RETURN_TRUE;
}
}
Py_RETURN_FALSE;
}
substring = (PyUnicodeObject *)PyUnicode_FromObject(subobj);
if (substring == NULL) {
if (PyErr_ExceptionMatches(PyExc_TypeError))
PyErr_Format(PyExc_TypeError, "endswith first arg must be str or "
"a tuple of str, not %s", Py_TYPE(subobj)->tp_name);
return NULL;
}
result = tailmatch(self, substring, start, end, +1);
Py_DECREF(substring);
return PyBool_FromLong(result);
}
#include "stringlib/string_format.h"
PyDoc_STRVAR(format__doc__,
"S.format(*args, **kwargs) -> str\n\
\n\
Return a formatted version of S, using substitutions from args and kwargs.\n\
The substitutions are identified by braces ('{' and '}').");
PyDoc_STRVAR(format_map__doc__,
"S.format_map(mapping) -> str\n\
\n\
Return a formatted version of S, using substitutions from mapping.\n\
The substitutions are identified by braces ('{' and '}').");
static PyObject *
unicode__format__(PyObject* self, PyObject* args)
{
PyObject *format_spec;
if (!PyArg_ParseTuple(args, "U:__format__", &format_spec))
return NULL;
return _PyUnicode_FormatAdvanced(self,
PyUnicode_AS_UNICODE(format_spec),
PyUnicode_GET_SIZE(format_spec));
}
PyDoc_STRVAR(p_format__doc__,
"S.__format__(format_spec) -> str\n\
\n\
Return a formatted version of S as described by format_spec.");
static PyObject *
unicode__sizeof__(PyUnicodeObject *v)
{
return PyLong_FromSsize_t(sizeof(PyUnicodeObject) +
sizeof(Py_UNICODE) * (v->length + 1));
}
PyDoc_STRVAR(sizeof__doc__,
"S.__sizeof__() -> size of S in memory, in bytes");
static PyObject *
unicode_getnewargs(PyUnicodeObject *v)
{
return Py_BuildValue("(u#)", v->str, v->length);
}
static PyMethodDef unicode_methods[] = {
/* Order is according to common usage: often used methods should
appear first, since lookup is done sequentially. */
{"encode", (PyCFunction) unicode_encode, METH_VARARGS | METH_KEYWORDS, encode__doc__},
{"replace", (PyCFunction) unicode_replace, METH_VARARGS, replace__doc__},
{"split", (PyCFunction) unicode_split, METH_VARARGS, split__doc__},
{"rsplit", (PyCFunction) unicode_rsplit, METH_VARARGS, rsplit__doc__},
{"join", (PyCFunction) unicode_join, METH_O, join__doc__},
{"capitalize", (PyCFunction) unicode_capitalize, METH_NOARGS, capitalize__doc__},
{"title", (PyCFunction) unicode_title, METH_NOARGS, title__doc__},
{"center", (PyCFunction) unicode_center, METH_VARARGS, center__doc__},
{"count", (PyCFunction) unicode_count, METH_VARARGS, count__doc__},
{"expandtabs", (PyCFunction) unicode_expandtabs, METH_VARARGS, expandtabs__doc__},
{"find", (PyCFunction) unicode_find, METH_VARARGS, find__doc__},
{"partition", (PyCFunction) unicode_partition, METH_O, partition__doc__},
{"index", (PyCFunction) unicode_index, METH_VARARGS, index__doc__},
{"ljust", (PyCFunction) unicode_ljust, METH_VARARGS, ljust__doc__},
{"lower", (PyCFunction) unicode_lower, METH_NOARGS, lower__doc__},
{"lstrip", (PyCFunction) unicode_lstrip, METH_VARARGS, lstrip__doc__},
{"rfind", (PyCFunction) unicode_rfind, METH_VARARGS, rfind__doc__},
{"rindex", (PyCFunction) unicode_rindex, METH_VARARGS, rindex__doc__},
{"rjust", (PyCFunction) unicode_rjust, METH_VARARGS, rjust__doc__},
{"rstrip", (PyCFunction) unicode_rstrip, METH_VARARGS, rstrip__doc__},
{"rpartition", (PyCFunction) unicode_rpartition, METH_O, rpartition__doc__},
{"splitlines", (PyCFunction) unicode_splitlines, METH_VARARGS, splitlines__doc__},
{"strip", (PyCFunction) unicode_strip, METH_VARARGS, strip__doc__},
{"swapcase", (PyCFunction) unicode_swapcase, METH_NOARGS, swapcase__doc__},
{"translate", (PyCFunction) unicode_translate, METH_O, translate__doc__},
{"upper", (PyCFunction) unicode_upper, METH_NOARGS, upper__doc__},
{"startswith", (PyCFunction) unicode_startswith, METH_VARARGS, startswith__doc__},
{"endswith", (PyCFunction) unicode_endswith, METH_VARARGS, endswith__doc__},
{"islower", (PyCFunction) unicode_islower, METH_NOARGS, islower__doc__},
{"isupper", (PyCFunction) unicode_isupper, METH_NOARGS, isupper__doc__},
{"istitle", (PyCFunction) unicode_istitle, METH_NOARGS, istitle__doc__},
{"isspace", (PyCFunction) unicode_isspace, METH_NOARGS, isspace__doc__},
{"isdecimal", (PyCFunction) unicode_isdecimal, METH_NOARGS, isdecimal__doc__},
{"isdigit", (PyCFunction) unicode_isdigit, METH_NOARGS, isdigit__doc__},
{"isnumeric", (PyCFunction) unicode_isnumeric, METH_NOARGS, isnumeric__doc__},
{"isalpha", (PyCFunction) unicode_isalpha, METH_NOARGS, isalpha__doc__},
{"isalnum", (PyCFunction) unicode_isalnum, METH_NOARGS, isalnum__doc__},
{"isidentifier", (PyCFunction) unicode_isidentifier, METH_NOARGS, isidentifier__doc__},
{"isprintable", (PyCFunction) unicode_isprintable, METH_NOARGS, isprintable__doc__},
{"zfill", (PyCFunction) unicode_zfill, METH_VARARGS, zfill__doc__},
{"format", (PyCFunction) do_string_format, METH_VARARGS | METH_KEYWORDS, format__doc__},
{"format_map", (PyCFunction) do_string_format_map, METH_O, format_map__doc__},
{"__format__", (PyCFunction) unicode__format__, METH_VARARGS, p_format__doc__},
{"maketrans", (PyCFunction) unicode_maketrans,
METH_VARARGS | METH_STATIC, maketrans__doc__},
{"__sizeof__", (PyCFunction) unicode__sizeof__, METH_NOARGS, sizeof__doc__},
#if 0
{"capwords", (PyCFunction) unicode_capwords, METH_NOARGS, capwords__doc__},
#endif
#if 0
/* These methods are just used for debugging the implementation. */
{"freelistsize", (PyCFunction) unicode_freelistsize, METH_NOARGS},
{"_decimal2ascii", (PyCFunction) unicode__decimal2ascii, METH_NOARGS},
#endif
{"__getnewargs__", (PyCFunction)unicode_getnewargs, METH_NOARGS},
{NULL, NULL}
};
static PyObject *
unicode_mod(PyObject *v, PyObject *w)
{
if (!PyUnicode_Check(v)) {
Py_INCREF(Py_NotImplemented);
return Py_NotImplemented;
}
return PyUnicode_Format(v, w);
}
static PyNumberMethods unicode_as_number = {
0, /*nb_add*/
0, /*nb_subtract*/
0, /*nb_multiply*/
unicode_mod, /*nb_remainder*/
};
static PySequenceMethods unicode_as_sequence = {
(lenfunc) unicode_length, /* sq_length */
PyUnicode_Concat, /* sq_concat */
(ssizeargfunc) unicode_repeat, /* sq_repeat */
(ssizeargfunc) unicode_getitem, /* sq_item */
0, /* sq_slice */
0, /* sq_ass_item */
0, /* sq_ass_slice */
PyUnicode_Contains, /* sq_contains */
};
static PyObject*
unicode_subscript(PyUnicodeObject* self, PyObject* item)
{
if (PyIndex_Check(item)) {
Py_ssize_t i = PyNumber_AsSsize_t(item, PyExc_IndexError);
if (i == -1 && PyErr_Occurred())
return NULL;
if (i < 0)
i += PyUnicode_GET_SIZE(self);
return unicode_getitem(self, i);
} else if (PySlice_Check(item)) {
Py_ssize_t start, stop, step, slicelength, cur, i;
Py_UNICODE* source_buf;
Py_UNICODE* result_buf;
PyObject* result;
if (PySlice_GetIndicesEx(item, PyUnicode_GET_SIZE(self),
&start, &stop, &step, &slicelength) < 0) {
return NULL;
}
if (slicelength <= 0) {
return PyUnicode_FromUnicode(NULL, 0);
} else if (start == 0 && step == 1 && slicelength == self->length &&
PyUnicode_CheckExact(self)) {
Py_INCREF(self);
return (PyObject *)self;
} else if (step == 1) {
return PyUnicode_FromUnicode(self->str + start, slicelength);
} else {
source_buf = PyUnicode_AS_UNICODE((PyObject*)self);
result_buf = (Py_UNICODE *)PyObject_MALLOC(slicelength*
sizeof(Py_UNICODE));
if (result_buf == NULL)
return PyErr_NoMemory();
for (cur = start, i = 0; i < slicelength; cur += step, i++) {
result_buf[i] = source_buf[cur];
}
result = PyUnicode_FromUnicode(result_buf, slicelength);
PyObject_FREE(result_buf);
return result;
}
} else {
PyErr_SetString(PyExc_TypeError, "string indices must be integers");
return NULL;
}
}
static PyMappingMethods unicode_as_mapping = {
(lenfunc)unicode_length, /* mp_length */
(binaryfunc)unicode_subscript, /* mp_subscript */
(objobjargproc)0, /* mp_ass_subscript */
};
/* Helpers for PyUnicode_Format() */
static PyObject *
getnextarg(PyObject *args, Py_ssize_t arglen, Py_ssize_t *p_argidx)
{
Py_ssize_t argidx = *p_argidx;
if (argidx < arglen) {
(*p_argidx)++;
if (arglen < 0)
return args;
else
return PyTuple_GetItem(args, argidx);
}
PyErr_SetString(PyExc_TypeError,
"not enough arguments for format string");
return NULL;
}
/* Returns a new reference to a PyUnicode object, or NULL on failure. */
static PyObject *
formatfloat(PyObject *v, int flags, int prec, int type)
{
char *p;
PyObject *result;
double x;
x = PyFloat_AsDouble(v);
if (x == -1.0 && PyErr_Occurred())
return NULL;
if (prec < 0)
prec = 6;
p = PyOS_double_to_string(x, type, prec,
(flags & F_ALT) ? Py_DTSF_ALT : 0, NULL);
if (p == NULL)
return NULL;
result = PyUnicode_FromStringAndSize(p, strlen(p));
PyMem_Free(p);
return result;
}
static PyObject*
formatlong(PyObject *val, int flags, int prec, int type)
{
char *buf;
int len;
PyObject *str; /* temporary string object. */
PyObject *result;
str = _PyBytes_FormatLong(val, flags, prec, type, &buf, &len);
if (!str)
return NULL;
result = PyUnicode_FromStringAndSize(buf, len);
Py_DECREF(str);
return result;
}
static int
formatchar(Py_UNICODE *buf,
size_t buflen,
PyObject *v)
{
/* presume that the buffer is at least 3 characters long */
if (PyUnicode_Check(v)) {
if (PyUnicode_GET_SIZE(v) == 1) {
buf[0] = PyUnicode_AS_UNICODE(v)[0];
buf[1] = '\0';
return 1;
}
#ifndef Py_UNICODE_WIDE
if (PyUnicode_GET_SIZE(v) == 2) {
/* Decode a valid surrogate pair */
int c0 = PyUnicode_AS_UNICODE(v)[0];
int c1 = PyUnicode_AS_UNICODE(v)[1];
if (0xD800 <= c0 && c0 <= 0xDBFF &&
0xDC00 <= c1 && c1 <= 0xDFFF) {
buf[0] = c0;
buf[1] = c1;
buf[2] = '\0';
return 2;
}
}
#endif
goto onError;
}
else {
/* Integer input truncated to a character */
long x;
x = PyLong_AsLong(v);
if (x == -1 && PyErr_Occurred())
goto onError;
if (x < 0 || x > 0x10ffff) {
PyErr_SetString(PyExc_OverflowError,
"%c arg not in range(0x110000)");
return -1;
}
#ifndef Py_UNICODE_WIDE
if (x > 0xffff) {
x -= 0x10000;
buf[0] = (Py_UNICODE)(0xD800 | (x >> 10));
buf[1] = (Py_UNICODE)(0xDC00 | (x & 0x3FF));
return 2;
}
#endif
buf[0] = (Py_UNICODE) x;
buf[1] = '\0';
return 1;
}
onError:
PyErr_SetString(PyExc_TypeError,
"%c requires int or char");
return -1;
}
/* fmt%(v1,v2,...) is roughly equivalent to sprintf(fmt, v1, v2, ...)
FORMATBUFLEN is the length of the buffer in which chars are formatted.
*/
#define FORMATBUFLEN (size_t)10
PyObject *PyUnicode_Format(PyObject *format,
PyObject *args)
{
Py_UNICODE *fmt, *res;
Py_ssize_t fmtcnt, rescnt, reslen, arglen, argidx;
int args_owned = 0;
PyUnicodeObject *result = NULL;
PyObject *dict = NULL;
PyObject *uformat;
if (format == NULL || args == NULL) {
PyErr_BadInternalCall();
return NULL;
}
uformat = PyUnicode_FromObject(format);
if (uformat == NULL)
return NULL;
fmt = PyUnicode_AS_UNICODE(uformat);
fmtcnt = PyUnicode_GET_SIZE(uformat);
reslen = rescnt = fmtcnt + 100;
result = _PyUnicode_New(reslen);
if (result == NULL)
goto onError;
res = PyUnicode_AS_UNICODE(result);
if (PyTuple_Check(args)) {
arglen = PyTuple_Size(args);
argidx = 0;
}
else {
arglen = -1;
argidx = -2;
}
if (Py_TYPE(args)->tp_as_mapping && !PyTuple_Check(args) &&
!PyUnicode_Check(args))
dict = args;
while (--fmtcnt >= 0) {
if (*fmt != '%') {
if (--rescnt < 0) {
rescnt = fmtcnt + 100;
reslen += rescnt;
if (_PyUnicode_Resize(&result, reslen) < 0)
goto onError;
res = PyUnicode_AS_UNICODE(result) + reslen - rescnt;
--rescnt;
}
*res++ = *fmt++;
}
else {
/* Got a format specifier */
int flags = 0;
Py_ssize_t width = -1;
int prec = -1;
Py_UNICODE c = '\0';
Py_UNICODE fill;
int isnumok;
PyObject *v = NULL;
PyObject *temp = NULL;
Py_UNICODE *pbuf;
Py_UNICODE sign;
Py_ssize_t len;
Py_UNICODE formatbuf[FORMATBUFLEN]; /* For formatchar() */
fmt++;
if (*fmt == '(') {
Py_UNICODE *keystart;
Py_ssize_t keylen;
PyObject *key;
int pcount = 1;
if (dict == NULL) {
PyErr_SetString(PyExc_TypeError,
"format requires a mapping");
goto onError;
}
++fmt;
--fmtcnt;
keystart = fmt;
/* Skip over balanced parentheses */
while (pcount > 0 && --fmtcnt >= 0) {
if (*fmt == ')')
--pcount;
else if (*fmt == '(')
++pcount;
fmt++;
}
keylen = fmt - keystart - 1;
if (fmtcnt < 0 || pcount > 0) {
PyErr_SetString(PyExc_ValueError,
"incomplete format key");
goto onError;
}
#if 0
/* keys are converted to strings using UTF-8 and
then looked up since Python uses strings to hold
variables names etc. in its namespaces and we
wouldn't want to break common idioms. */
key = PyUnicode_EncodeUTF8(keystart,
keylen,
NULL);
#else
key = PyUnicode_FromUnicode(keystart, keylen);
#endif
if (key == NULL)
goto onError;
if (args_owned) {
Py_DECREF(args);
args_owned = 0;
}
args = PyObject_GetItem(dict, key);
Py_DECREF(key);
if (args == NULL) {
goto onError;
}
args_owned = 1;
arglen = -1;
argidx = -2;
}
while (--fmtcnt >= 0) {
switch (c = *fmt++) {
case '-': flags |= F_LJUST; continue;
case '+': flags |= F_SIGN; continue;
case ' ': flags |= F_BLANK; continue;
case '#': flags |= F_ALT; continue;
case '0': flags |= F_ZERO; continue;
}
break;
}
if (c == '*') {
v = getnextarg(args, arglen, &argidx);
if (v == NULL)
goto onError;
if (!PyLong_Check(v)) {
PyErr_SetString(PyExc_TypeError,
"* wants int");
goto onError;
}
width = PyLong_AsLong(v);
if (width == -1 && PyErr_Occurred())
goto onError;
if (width < 0) {
flags |= F_LJUST;
width = -width;
}
if (--fmtcnt >= 0)
c = *fmt++;
}
else if (c >= '0' && c <= '9') {
width = c - '0';
while (--fmtcnt >= 0) {
c = *fmt++;
if (c < '0' || c > '9')
break;
if ((width*10) / 10 != width) {
PyErr_SetString(PyExc_ValueError,
"width too big");
goto onError;
}
width = width*10 + (c - '0');
}
}
if (c == '.') {
prec = 0;
if (--fmtcnt >= 0)
c = *fmt++;
if (c == '*') {
v = getnextarg(args, arglen, &argidx);
if (v == NULL)
goto onError;
if (!PyLong_Check(v)) {
PyErr_SetString(PyExc_TypeError,
"* wants int");
goto onError;
}
prec = PyLong_AsLong(v);
if (prec == -1 && PyErr_Occurred())
goto onError;
if (prec < 0)
prec = 0;
if (--fmtcnt >= 0)
c = *fmt++;
}
else if (c >= '0' && c <= '9') {
prec = c - '0';
while (--fmtcnt >= 0) {
c = *fmt++;
if (c < '0' || c > '9')
break;
if ((prec*10) / 10 != prec) {
PyErr_SetString(PyExc_ValueError,
"prec too big");
goto onError;
}
prec = prec*10 + (c - '0');
}
}
} /* prec */
if (fmtcnt >= 0) {
if (c == 'h' || c == 'l' || c == 'L') {
if (--fmtcnt >= 0)
c = *fmt++;
}
}
if (fmtcnt < 0) {
PyErr_SetString(PyExc_ValueError,
"incomplete format");
goto onError;
}
if (c != '%') {
v = getnextarg(args, arglen, &argidx);
if (v == NULL)
goto onError;
}
sign = 0;
fill = ' ';
switch (c) {
case '%':
pbuf = formatbuf;
/* presume that buffer length is at least 1 */
pbuf[0] = '%';
len = 1;
break;
case 's':
case 'r':
case 'a':
if (PyUnicode_CheckExact(v) && c == 's') {
temp = v;
Py_INCREF(temp);
}
else {
if (c == 's')
temp = PyObject_Str(v);
else if (c == 'r')
temp = PyObject_Repr(v);
else
temp = PyObject_ASCII(v);
if (temp == NULL)
goto onError;
if (PyUnicode_Check(temp))
/* nothing to do */;
else {
Py_DECREF(temp);
PyErr_SetString(PyExc_TypeError,
"%s argument has non-string str()");
goto onError;
}
}
pbuf = PyUnicode_AS_UNICODE(temp);
len = PyUnicode_GET_SIZE(temp);
if (prec >= 0 && len > prec)
len = prec;
break;
case 'i':
case 'd':
case 'u':
case 'o':
case 'x':
case 'X':
if (c == 'i')
c = 'd';
isnumok = 0;
if (PyNumber_Check(v)) {
PyObject *iobj=NULL;
if (PyLong_Check(v)) {
iobj = v;
Py_INCREF(iobj);
}
else {
iobj = PyNumber_Long(v);
}
if (iobj!=NULL) {
if (PyLong_Check(iobj)) {
isnumok = 1;
temp = formatlong(iobj, flags, prec, c);
Py_DECREF(iobj);
if (!temp)
goto onError;
pbuf = PyUnicode_AS_UNICODE(temp);
len = PyUnicode_GET_SIZE(temp);
sign = 1;
}
else {
Py_DECREF(iobj);
}
}
}
if (!isnumok) {
PyErr_Format(PyExc_TypeError,
"%%%c format: a number is required, "
"not %.200s", (char)c, Py_TYPE(v)->tp_name);
goto onError;
}
if (flags & F_ZERO)
fill = '0';
break;
case 'e':
case 'E':
case 'f':
case 'F':
case 'g':
case 'G':
temp = formatfloat(v, flags, prec, c);
if (!temp)
goto onError;
pbuf = PyUnicode_AS_UNICODE(temp);
len = PyUnicode_GET_SIZE(temp);
sign = 1;
if (flags & F_ZERO)
fill = '0';
break;
case 'c':
pbuf = formatbuf;
len = formatchar(pbuf, sizeof(formatbuf)/sizeof(Py_UNICODE), v);
if (len < 0)
goto onError;
break;
default:
PyErr_Format(PyExc_ValueError,
"unsupported format character '%c' (0x%x) "
"at index %zd",
(31<=c && c<=126) ? (char)c : '?',
(int)c,
(Py_ssize_t)(fmt - 1 -
PyUnicode_AS_UNICODE(uformat)));
goto onError;
}
if (sign) {
if (*pbuf == '-' || *pbuf == '+') {
sign = *pbuf++;
len--;
}
else if (flags & F_SIGN)
sign = '+';
else if (flags & F_BLANK)
sign = ' ';
else
sign = 0;
}
if (width < len)
width = len;
if (rescnt - (sign != 0) < width) {
reslen -= rescnt;
rescnt = width + fmtcnt + 100;
reslen += rescnt;
if (reslen < 0) {
Py_XDECREF(temp);
PyErr_NoMemory();
goto onError;
}
if (_PyUnicode_Resize(&result, reslen) < 0) {
Py_XDECREF(temp);
goto onError;
}
res = PyUnicode_AS_UNICODE(result)
+ reslen - rescnt;
}
if (sign) {
if (fill != ' ')
*res++ = sign;
rescnt--;
if (width > len)
width--;
}
if ((flags & F_ALT) && (c == 'x' || c == 'X' || c == 'o')) {
assert(pbuf[0] == '0');
assert(pbuf[1] == c);
if (fill != ' ') {
*res++ = *pbuf++;
*res++ = *pbuf++;
}
rescnt -= 2;
width -= 2;
if (width < 0)
width = 0;
len -= 2;
}
if (width > len && !(flags & F_LJUST)) {
do {
--rescnt;
*res++ = fill;
} while (--width > len);
}
if (fill == ' ') {
if (sign)
*res++ = sign;
if ((flags & F_ALT) && (c == 'x' || c == 'X' || c == 'o')) {
assert(pbuf[0] == '0');
assert(pbuf[1] == c);
*res++ = *pbuf++;
*res++ = *pbuf++;
}
}
Py_UNICODE_COPY(res, pbuf, len);
res += len;
rescnt -= len;
while (--width >= len) {
--rescnt;
*res++ = ' ';
}
if (dict && (argidx < arglen) && c != '%') {
PyErr_SetString(PyExc_TypeError,
"not all arguments converted during string formatting");
Py_XDECREF(temp);
goto onError;
}
Py_XDECREF(temp);
} /* '%' */
} /* until end */
if (argidx < arglen && !dict) {
PyErr_SetString(PyExc_TypeError,
"not all arguments converted during string formatting");
goto onError;
}
if (_PyUnicode_Resize(&result, reslen - rescnt) < 0)
goto onError;
if (args_owned) {
Py_DECREF(args);
}
Py_DECREF(uformat);
return (PyObject *)result;
onError:
Py_XDECREF(result);
Py_DECREF(uformat);
if (args_owned) {
Py_DECREF(args);
}
return NULL;
}
static PyObject *
unicode_subtype_new(PyTypeObject *type, PyObject *args, PyObject *kwds);
static PyObject *
unicode_new(PyTypeObject *type, PyObject *args, PyObject *kwds)
{
PyObject *x = NULL;
static char *kwlist[] = {"object", "encoding", "errors", 0};
char *encoding = NULL;
char *errors = NULL;
if (type != &PyUnicode_Type)
return unicode_subtype_new(type, args, kwds);
if (!PyArg_ParseTupleAndKeywords(args, kwds, "|Oss:str",
kwlist, &x, &encoding, &errors))
return NULL;
if (x == NULL)
return (PyObject *)_PyUnicode_New(0);
if (encoding == NULL && errors == NULL)
return PyObject_Str(x);
else
return PyUnicode_FromEncodedObject(x, encoding, errors);
}
static PyObject *
unicode_subtype_new(PyTypeObject *type, PyObject *args, PyObject *kwds)
{
PyUnicodeObject *tmp, *pnew;
Py_ssize_t n;
assert(PyType_IsSubtype(type, &PyUnicode_Type));
tmp = (PyUnicodeObject *)unicode_new(&PyUnicode_Type, args, kwds);
if (tmp == NULL)
return NULL;
assert(PyUnicode_Check(tmp));
pnew = (PyUnicodeObject *) type->tp_alloc(type, n = tmp->length);
if (pnew == NULL) {
Py_DECREF(tmp);
return NULL;
}
pnew->str = (Py_UNICODE*) PyObject_MALLOC(sizeof(Py_UNICODE) * (n+1));
if (pnew->str == NULL) {
_Py_ForgetReference((PyObject *)pnew);
PyObject_Del(pnew);
Py_DECREF(tmp);
return PyErr_NoMemory();
}
Py_UNICODE_COPY(pnew->str, tmp->str, n+1);
pnew->length = n;
pnew->hash = tmp->hash;
Py_DECREF(tmp);
return (PyObject *)pnew;
}
PyDoc_STRVAR(unicode_doc,
"str(string[, encoding[, errors]]) -> str\n\
\n\
Create a new string object from the given encoded string.\n\
encoding defaults to the current default string encoding.\n\
errors can be 'strict', 'replace' or 'ignore' and defaults to 'strict'.");
static PyObject *unicode_iter(PyObject *seq);
PyTypeObject PyUnicode_Type = {
PyVarObject_HEAD_INIT(&PyType_Type, 0)
"str", /* tp_name */
sizeof(PyUnicodeObject), /* tp_size */
0, /* tp_itemsize */
/* Slots */
(destructor)unicode_dealloc, /* tp_dealloc */
0, /* tp_print */
0, /* tp_getattr */
0, /* tp_setattr */
0, /* tp_reserved */
unicode_repr, /* tp_repr */
&unicode_as_number, /* tp_as_number */
&unicode_as_sequence, /* tp_as_sequence */
&unicode_as_mapping, /* tp_as_mapping */
(hashfunc) unicode_hash, /* tp_hash*/
0, /* tp_call*/
(reprfunc) unicode_str, /* tp_str */
PyObject_GenericGetAttr, /* tp_getattro */
0, /* tp_setattro */
0, /* tp_as_buffer */
Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE |
Py_TPFLAGS_UNICODE_SUBCLASS, /* tp_flags */
unicode_doc, /* tp_doc */
0, /* tp_traverse */
0, /* tp_clear */
PyUnicode_RichCompare, /* tp_richcompare */
0, /* tp_weaklistoffset */
unicode_iter, /* tp_iter */
0, /* tp_iternext */
unicode_methods, /* tp_methods */
0, /* tp_members */
0, /* tp_getset */
&PyBaseObject_Type, /* tp_base */
0, /* tp_dict */
0, /* tp_descr_get */
0, /* tp_descr_set */
0, /* tp_dictoffset */
0, /* tp_init */
0, /* tp_alloc */
unicode_new, /* tp_new */
PyObject_Del, /* tp_free */
};
/* Initialize the Unicode implementation */
void _PyUnicode_Init(void)
{
int i;
/* XXX - move this array to unicodectype.c ? */
Py_UNICODE linebreak[] = {
0x000A, /* LINE FEED */
0x000D, /* CARRIAGE RETURN */
0x001C, /* FILE SEPARATOR */
0x001D, /* GROUP SEPARATOR */
0x001E, /* RECORD SEPARATOR */
0x0085, /* NEXT LINE */
0x2028, /* LINE SEPARATOR */
0x2029, /* PARAGRAPH SEPARATOR */
};
/* Init the implementation */
free_list = NULL;
numfree = 0;
unicode_empty = _PyUnicode_New(0);
if (!unicode_empty)
return;
for (i = 0; i < 256; i++)
unicode_latin1[i] = NULL;
if (PyType_Ready(&PyUnicode_Type) < 0)
Py_FatalError("Can't initialize 'unicode'");
/* initialize the linebreak bloom filter */
bloom_linebreak = make_bloom_mask(
linebreak, sizeof(linebreak) / sizeof(linebreak[0])
);
PyType_Ready(&EncodingMapType);
}
/* Finalize the Unicode implementation */
int
PyUnicode_ClearFreeList(void)
{
int freelist_size = numfree;
PyUnicodeObject *u;
for (u = free_list; u != NULL;) {
PyUnicodeObject *v = u;
u = *(PyUnicodeObject **)u;
if (v->str)
PyObject_DEL(v->str);
Py_XDECREF(v->defenc);
PyObject_Del(v);
numfree--;
}
free_list = NULL;
assert(numfree == 0);
return freelist_size;
}
void
_PyUnicode_Fini(void)
{
int i;
Py_XDECREF(unicode_empty);
unicode_empty = NULL;
for (i = 0; i < 256; i++) {
if (unicode_latin1[i]) {
Py_DECREF(unicode_latin1[i]);
unicode_latin1[i] = NULL;
}
}
(void)PyUnicode_ClearFreeList();
}
void
PyUnicode_InternInPlace(PyObject **p)
{
register PyUnicodeObject *s = (PyUnicodeObject *)(*p);
PyObject *t;
if (s == NULL || !PyUnicode_Check(s))
Py_FatalError(
"PyUnicode_InternInPlace: unicode strings only please!");
/* If it's a subclass, we don't really know what putting
it in the interned dict might do. */
if (!PyUnicode_CheckExact(s))
return;
if (PyUnicode_CHECK_INTERNED(s))
return;
if (interned == NULL) {
interned = PyDict_New();
if (interned == NULL) {
PyErr_Clear(); /* Don't leave an exception */
return;
}
}
/* It might be that the GetItem call fails even
though the key is present in the dictionary,
namely when this happens during a stack overflow. */
Py_ALLOW_RECURSION
t = PyDict_GetItem(interned, (PyObject *)s);
Py_END_ALLOW_RECURSION
if (t) {
Py_INCREF(t);
Py_DECREF(*p);
*p = t;
return;
}
PyThreadState_GET()->recursion_critical = 1;
if (PyDict_SetItem(interned, (PyObject *)s, (PyObject *)s) < 0) {
PyErr_Clear();
PyThreadState_GET()->recursion_critical = 0;
return;
}
PyThreadState_GET()->recursion_critical = 0;
/* The two references in interned are not counted by refcnt.
The deallocator will take care of this */
Py_REFCNT(s) -= 2;
PyUnicode_CHECK_INTERNED(s) = SSTATE_INTERNED_MORTAL;
}
void
PyUnicode_InternImmortal(PyObject **p)
{
PyUnicode_InternInPlace(p);
if (PyUnicode_CHECK_INTERNED(*p) != SSTATE_INTERNED_IMMORTAL) {
PyUnicode_CHECK_INTERNED(*p) = SSTATE_INTERNED_IMMORTAL;
Py_INCREF(*p);
}
}
PyObject *
PyUnicode_InternFromString(const char *cp)
{
PyObject *s = PyUnicode_FromString(cp);
if (s == NULL)
return NULL;
PyUnicode_InternInPlace(&s);
return s;
}
void _Py_ReleaseInternedUnicodeStrings(void)
{
PyObject *keys;
PyUnicodeObject *s;
Py_ssize_t i, n;
Py_ssize_t immortal_size = 0, mortal_size = 0;
if (interned == NULL || !PyDict_Check(interned))
return;
keys = PyDict_Keys(interned);
if (keys == NULL || !PyList_Check(keys)) {
PyErr_Clear();
return;
}
/* Since _Py_ReleaseInternedUnicodeStrings() is intended to help a leak
detector, interned unicode strings are not forcibly deallocated;
rather, we give them their stolen references back, and then clear
and DECREF the interned dict. */
n = PyList_GET_SIZE(keys);
fprintf(stderr, "releasing %" PY_FORMAT_SIZE_T "d interned strings\n",
n);
for (i = 0; i < n; i++) {
s = (PyUnicodeObject *) PyList_GET_ITEM(keys, i);
switch (s->state) {
case SSTATE_NOT_INTERNED:
/* XXX Shouldn't happen */
break;
case SSTATE_INTERNED_IMMORTAL:
Py_REFCNT(s) += 1;
immortal_size += s->length;
break;
case SSTATE_INTERNED_MORTAL:
Py_REFCNT(s) += 2;
mortal_size += s->length;
break;
default:
Py_FatalError("Inconsistent interned string state.");
}
s->state = SSTATE_NOT_INTERNED;
}
fprintf(stderr, "total size of all interned strings: "
"%" PY_FORMAT_SIZE_T "d/%" PY_FORMAT_SIZE_T "d "
"mortal/immortal\n", mortal_size, immortal_size);
Py_DECREF(keys);
PyDict_Clear(interned);
Py_DECREF(interned);
interned = NULL;
}
/********************* Unicode Iterator **************************/
typedef struct {
PyObject_HEAD
Py_ssize_t it_index;
PyUnicodeObject *it_seq; /* Set to NULL when iterator is exhausted */
} unicodeiterobject;
static void
unicodeiter_dealloc(unicodeiterobject *it)
{
_PyObject_GC_UNTRACK(it);
Py_XDECREF(it->it_seq);
PyObject_GC_Del(it);
}
static int
unicodeiter_traverse(unicodeiterobject *it, visitproc visit, void *arg)
{
Py_VISIT(it->it_seq);
return 0;
}
static PyObject *
unicodeiter_next(unicodeiterobject *it)
{
PyUnicodeObject *seq;
PyObject *item;
assert(it != NULL);
seq = it->it_seq;
if (seq == NULL)
return NULL;
assert(PyUnicode_Check(seq));
if (it->it_index < PyUnicode_GET_SIZE(seq)) {
item = PyUnicode_FromUnicode(
PyUnicode_AS_UNICODE(seq)+it->it_index, 1);
if (item != NULL)
++it->it_index;
return item;
}
Py_DECREF(seq);
it->it_seq = NULL;
return NULL;
}
static PyObject *
unicodeiter_len(unicodeiterobject *it)
{
Py_ssize_t len = 0;
if (it->it_seq)
len = PyUnicode_GET_SIZE(it->it_seq) - it->it_index;
return PyLong_FromSsize_t(len);
}
PyDoc_STRVAR(length_hint_doc, "Private method returning an estimate of len(list(it)).");
static PyMethodDef unicodeiter_methods[] = {
{"__length_hint__", (PyCFunction)unicodeiter_len, METH_NOARGS,
length_hint_doc},
{NULL, NULL} /* sentinel */
};
PyTypeObject PyUnicodeIter_Type = {
PyVarObject_HEAD_INIT(&PyType_Type, 0)
"str_iterator", /* tp_name */
sizeof(unicodeiterobject), /* tp_basicsize */
0, /* tp_itemsize */
/* methods */
(destructor)unicodeiter_dealloc, /* tp_dealloc */
0, /* tp_print */
0, /* tp_getattr */
0, /* tp_setattr */
0, /* tp_reserved */
0, /* tp_repr */
0, /* tp_as_number */
0, /* tp_as_sequence */
0, /* tp_as_mapping */
0, /* tp_hash */
0, /* tp_call */
0, /* tp_str */
PyObject_GenericGetAttr, /* tp_getattro */
0, /* tp_setattro */
0, /* tp_as_buffer */
Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC,/* tp_flags */
0, /* tp_doc */
(traverseproc)unicodeiter_traverse, /* tp_traverse */
0, /* tp_clear */
0, /* tp_richcompare */
0, /* tp_weaklistoffset */
PyObject_SelfIter, /* tp_iter */
(iternextfunc)unicodeiter_next, /* tp_iternext */
unicodeiter_methods, /* tp_methods */
0,
};
static PyObject *
unicode_iter(PyObject *seq)
{
unicodeiterobject *it;
if (!PyUnicode_Check(seq)) {
PyErr_BadInternalCall();
return NULL;
}
it = PyObject_GC_New(unicodeiterobject, &PyUnicodeIter_Type);
if (it == NULL)
return NULL;
it->it_index = 0;
Py_INCREF(seq);
it->it_seq = (PyUnicodeObject *)seq;
_PyObject_GC_TRACK(it);
return (PyObject *)it;
}
size_t
Py_UNICODE_strlen(const Py_UNICODE *u)
{
int res = 0;
while(*u++)
res++;
return res;
}
Py_UNICODE*
Py_UNICODE_strcpy(Py_UNICODE *s1, const Py_UNICODE *s2)
{
Py_UNICODE *u = s1;
while ((*u++ = *s2++));
return s1;
}
Py_UNICODE*
Py_UNICODE_strncpy(Py_UNICODE *s1, const Py_UNICODE *s2, size_t n)
{
Py_UNICODE *u = s1;
while ((*u++ = *s2++))
if (n-- == 0)
break;
return s1;
}
Py_UNICODE*
Py_UNICODE_strcat(Py_UNICODE *s1, const Py_UNICODE *s2)
{
Py_UNICODE *u1 = s1;
u1 += Py_UNICODE_strlen(u1);
Py_UNICODE_strcpy(u1, s2);
return s1;
}
int
Py_UNICODE_strcmp(const Py_UNICODE *s1, const Py_UNICODE *s2)
{
while (*s1 && *s2 && *s1 == *s2)
s1++, s2++;
if (*s1 && *s2)
return (*s1 < *s2) ? -1 : +1;
if (*s1)
return 1;
if (*s2)
return -1;
return 0;
}
int
Py_UNICODE_strncmp(const Py_UNICODE *s1, const Py_UNICODE *s2, size_t n)
{
register Py_UNICODE u1, u2;
for (; n != 0; n--) {
u1 = *s1;
u2 = *s2;
if (u1 != u2)
return (u1 < u2) ? -1 : +1;
if (u1 == '\0')
return 0;
s1++;
s2++;
}
return 0;
}
Py_UNICODE*
Py_UNICODE_strchr(const Py_UNICODE *s, Py_UNICODE c)
{
const Py_UNICODE *p;
for (p = s; *p; p++)
if (*p == c)
return (Py_UNICODE*)p;
return NULL;
}
Py_UNICODE*
Py_UNICODE_strrchr(const Py_UNICODE *s, Py_UNICODE c)
{
const Py_UNICODE *p;
p = s + Py_UNICODE_strlen(s);
while (p != s) {
p--;
if (*p == c)
return (Py_UNICODE*)p;
}
return NULL;
}
Py_UNICODE*
PyUnicode_AsUnicodeCopy(PyObject *object)
{
PyUnicodeObject *unicode = (PyUnicodeObject *)object;
Py_UNICODE *copy;
Py_ssize_t size;
/* Ensure we won't overflow the size. */
if (PyUnicode_GET_SIZE(unicode) > ((PY_SSIZE_T_MAX / sizeof(Py_UNICODE)) - 1)) {
PyErr_NoMemory();
return NULL;
}
size = PyUnicode_GET_SIZE(unicode) + 1; /* copy the nul character */
size *= sizeof(Py_UNICODE);
copy = PyMem_Malloc(size);
if (copy == NULL) {
PyErr_NoMemory();
return NULL;
}
memcpy(copy, PyUnicode_AS_UNICODE(unicode), size);
return copy;
}
/* A _string module, to export formatter_parser and formatter_field_name_split
to the string.Formatter class implemented in Python. */
static PyMethodDef _string_methods[] = {
{"formatter_field_name_split", (PyCFunction) formatter_field_name_split,
METH_O, PyDoc_STR("split the argument as a field name")},
{"formatter_parser", (PyCFunction) formatter_parser,
METH_O, PyDoc_STR("parse the argument as a format string")},
{NULL, NULL}
};
static struct PyModuleDef _string_module = {
PyModuleDef_HEAD_INIT,
"_string",
PyDoc_STR("string helper module"),
0,
_string_methods,
NULL,
NULL,
NULL,
NULL
};
PyMODINIT_FUNC
PyInit__string(void)
{
return PyModule_Create(&_string_module);
}
#ifdef __cplusplus
}
#endif
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