| /device/linaro/bootloader/edk2/AppPkg/Applications/Python/Python-2.7.10/Modules/_io/ |
| H A D | _iomodule.h | 78 Py_ssize_t written;
member in struct:__anon3012
|
| H A D | _iomodule.c | 7 Mostly written by Amaury Forgeot d'Arc
104 Py_ssize_t written = 0;
108 self->written = 0;
110 &myerrno, &strerror, &written))
124 self->written = written;
129 {"characters_written", T_PYSSIZET, offsetof(PyBlockingIOErrorObject, written), 0},
265 "* On output, if newline is None, any '\\n' characters written are\n"
268 " other legal values, any '\\n' characters written are translated to\n"
102 Py_ssize_t written = 0; local
|
| H A D | bufferedio.c | 128 "Returns the number of bytes written, which is never less than\n"
219 /* Just after the last byte actually written */
221 /* Just after the last byte waiting to be written, or -1 if the buffer
592 _set_BlockingIOError(char *msg, Py_ssize_t written)
argument
596 errno, msg, written);
602 /* Returns the address of the `written` member if a BlockingIOError was
616 /* TODO: sanity check (err->written >= 0) */
618 return &err->written;
935 Py_ssize_t n, written = 0;
local
977 written
1439 Py_ssize_t current_size, remaining, written; local
1761 Py_ssize_t written = 0; local
1812 Py_ssize_t written, avail, remaining; local
[all...] |
| /device/linaro/bootloader/edk2/AppPkg/Applications/Python/Python-2.7.2/Modules/_io/ |
| H A D | _iomodule.h | 73 Py_ssize_t written;
member in struct:__anon3325
|
| H A D | _iomodule.c | 7 Mostly written by Amaury Forgeot d'Arc
104 Py_ssize_t written = 0;
108 self->written = 0;
110 &myerrno, &strerror, &written))
124 self->written = written;
129 {"characters_written", T_PYSSIZET, offsetof(PyBlockingIOErrorObject, written), 0},
265 "* On output, if newline is None, any '\\n' characters written are\n"
268 " other legal values, any '\\n' characters written are translated to\n"
102 Py_ssize_t written = 0; local
|
| H A D | bufferedio.c | 128 "Returns the number of bytes written, which is never less than\n"
219 /* Just after the last byte actually written */
221 /* Just after the last byte waiting to be written, or -1 if the buffer
574 /* Returns the address of the `written` member if a BlockingIOError was
588 /* TODO: sanity check (err->written >= 0) */
590 return &err->written;
909 Py_ssize_t n, written = 0;
local
957 written += n;
995 written += n;
1420 Py_ssize_t current_size, remaining, written;
local
1722 Py_ssize_t written = 0; local
1786 Py_ssize_t written, avail, remaining; local
[all...] |
| /device/generic/goldfish/camera/ |
| H A D | QemuClient.cpp | 270 const size_t written = TEMP_FAILURE_RETRY(write(mPipeFD, data, data_size)); local
271 if (written == data_size) {
|
| /device/google/cuttlefish_common/guest/hals/camera/ |
| H A D | QemuClient.cpp | 253 const size_t written = qemud_fd_write(mPipeFD, data, data_size); local
254 if (written == data_size) {
|
| /device/google/marlin/usb/ |
| H A D | Usb.cpp | 138 std::string written; local
150 // as once the file is written the partner added signal
195 std::string written; local
216 if ((ret != EOF) && !readFile(filename, &written)) {
217 extractRole(&written);
218 ALOGI("written: %s", written.c_str());
219 if (written == convertRoletoString(newRole)) {
|
| /device/google/wahoo/usb/ |
| H A D | Usb.cpp | 164 std::string written; local
176 // as once the file is written the partner added signal
244 std::string written; local
265 if ((ret != EOF) && !readFile(filename, &written)) {
266 extractRole(&written);
267 ALOGI("written: %s", written.c_str());
268 if (written == convertRoletoString(newRole)) {
|
| /device/linaro/bootloader/edk2/AppPkg/Applications/Python/Python-2.7.10/Python/ |
| H A D | pystrtod.c | 592 int written;
local
607 written = PyOS_snprintf(p, buf_avail, "e%+.02d", digit_count-1);
608 if (!(0 <= written &&
609 written < Py_SAFE_DOWNCAST(buf_avail, size_t, int)))
|
| H A D | sysmodule.c | 1765 const int written = PyOS_vsnprintf(buffer, sizeof(buffer),
local
1771 if (written < 0 || (size_t)written >= sizeof(buffer)) {
|
| /device/linaro/bootloader/edk2/AppPkg/Applications/Python/Python-2.7.2/Python/ |
| H A D | pystrtod.c | 592 int written;
local
607 written = PyOS_snprintf(p, buf_avail, "e%+.02d", digit_count-1);
608 if (!(0 <= written &&
609 written < Py_SAFE_DOWNCAST(buf_avail, size_t, int)))
|
| H A D | sysmodule.c | 1744 const int written = PyOS_vsnprintf(buffer, sizeof(buffer),
local
1750 if (written < 0 || (size_t)written >= sizeof(buffer)) {
|
| /device/linaro/bootloader/edk2/AppPkg/Applications/Python/Python-2.7.2/Modules/ |
| H A D | _hotshot.c | 557 size_t written = fwrite(self->buffer, 1, self->index, self->logfp);
local
558 if (written == (size_t)self->index)
561 memmove(self->buffer, &self->buffer[written],
562 self->index - written);
563 self->index -= written;
564 if (written == 0) {
571 if (written > 0) {
|
| /device/linaro/hikey/audio/ |
| H A D | audio_hw.c | 87 unsigned int written; member in struct:alsa_stream_out
282 out->written += out_frames;
313 int64_t signed_frames = out->written - kernel_buffer_size + avail;
|
| /device/linaro/bootloader/edk2/AppPkg/Applications/Python/Python-2.7.10/Lib/pydoc_data/ |
| H A D | topics.py | 13 'bltin-ellipsis-object': u'\nThe Ellipsis Object\n*******************\n\nThis object is used by extended slice notation (see Slicings). It\nsupports no special operations. There is exactly one ellipsis object,\nnamed "Ellipsis" (a built-in name).\n\nIt is written as "Ellipsis". When in a subscript, it can also be\nwritten as "...", for example "seq[...]".\n',
14 'bltin-null-object': u'\nThe Null Object\n***************\n\nThis object is returned by functions that don\'t explicitly return a\nvalue. It supports no special operations. There is exactly one null\nobject, named "None" (a built-in name).\n\nIt is written as "None".\n',
15 'bltin-type-objects': u'\nType Objects\n************\n\nType objects represent the various object types. An object\'s type is\naccessed by the built-in function "type()". There are no special\noperations on types. The standard module "types" defines names for\nall standard built-in types.\n\nTypes are written like this: "<type \'int\'>".\n',
41 'id-classes': u'\nReserved classes of identifiers\n*******************************\n\nCertain classes of identifiers (besides keywords) have special\nmeanings. These classes are identified by the patterns of leading and\ntrailing underscore characters:\n\n"_*"\n Not imported by "from module import *". The special identifier "_"\n is used in the interactive interpreter to store the result of the\n last evaluation; it is stored in the "__builtin__" module. When\n not in interactive mode, "_" has no special meaning and is not\n defined. See section The import statement.\n\n Note: The name "_" is often used in conjunction with\n internationalization; refer to the documentation for the\n "gettext" module for more information on this convention.\n\n"__*__"\n System-defined names. These names are defined by the interpreter\n and its implementation (including the standard library). Current\n system names are discussed in the Special method names section and\n elsewhere. More will likely be defined in future versions of\n Python. *Any* use of "__*__" names, in any context, that does not\n follow explicitly documented use, is subject to breakage without\n warning.\n\n"__*"\n Class-private names. Names in this category, when used within the\n context of a class definition, are re-written to use a mangled form\n to help avoid name clashes between "private" attributes of base and\n derived classes. See section Identifiers (Names).\n',
42 'identifiers': u'\nIdentifiers and keywords\n************************\n\nIdentifiers (also referred to as *names*) are described by the\nfollowing lexical definitions:\n\n identifier ::= (letter|"_") (letter | digit | "_")*\n letter ::= lowercase | uppercase\n lowercase ::= "a"..."z"\n uppercase ::= "A"..."Z"\n digit ::= "0"..."9"\n\nIdentifiers are unlimited in length. Case is significant.\n\n\nKeywords\n========\n\nThe following identifiers are used as reserved words, or *keywords* of\nthe language, and cannot be used as ordinary identifiers. They must\nbe spelled exactly as written here:\n\n and del from not while\n as elif global or with\n assert else if pass yield\n break except import print\n class exec in raise\n continue finally is return\n def for lambda try\n\nChanged in version 2.4: "None" became a constant and is now recognized\nby the compiler as a name for the built-in object "None". Although it\nis not a keyword, you cannot assign a different object to it.\n\nChanged in version 2.5: Using "as" and "with" as identifiers triggers\na warning. To use them as keywords, enable the "with_statement"\nfuture feature .\n\nChanged in version 2.6: "as" and "with" are full keywords.\n\n\nReserved classes of identifiers\n===============================\n\nCertain classes of identifiers (besides keywords) have special\nmeanings. These classes are identified by the patterns of leading and\ntrailing underscore characters:\n\n"_*"\n Not imported by "from module import *". The special identifier "_"\n is used in the interactive interpreter to store the result of the\n last evaluation; it is stored in the "__builtin__" module. When\n not in interactive mode, "_" has no special meaning and is not\n defined. See section The import statement.\n\n Note: The name "_" is often used in conjunction with\n internationalization; refer to the documentation for the\n "gettext" module for more information on this convention.\n\n"__*__"\n System-defined names. These names are defined by the interpreter\n and its implementation (including the standard library). Current\n system names are discussed in the Special method names section and\n elsewhere. More will likely be defined in future versions of\n Python. *Any* use of "__*__" names, in any context, that does not\n follow explicitly documented use, is subject to breakage without\n warning.\n\n"__*"\n Class-private names. Names in this category, when used within the\n context of a class definition, are re-written to use a mangled form\n to help avoid name clashes between "private" attributes of base and\n derived classes. See section Identifiers (Names).\n',
namespace
57 'print': u'\nThe "print" statement\n*********************\n\n print_stmt ::= "print" ([expression ("," expression)* [","]]\n | ">>" expression [("," expression)+ [","]])\n\n"print" evaluates each expression in turn and writes the resulting\nobject to standard output (see below). If an object is not a string,\nit is first converted to a string using the rules for string\nconversions. The (resulting or original) string is then written. A\nspace is written before each object is (converted and) written, unless\nthe output system believes it is positioned at the beginning of a\nline. This is the case (1) when no characters have yet been written\nt
[all...] |
| /device/linaro/bootloader/edk2/AppPkg/Applications/Python/Python-2.7.2/Lib/pydoc_data/ |
| H A D | topics.py | 12 'bltin-ellipsis-object': u'\nThe Ellipsis Object\n*******************\n\nThis object is used by extended slice notation (see *Slicings*). It\nsupports no special operations. There is exactly one ellipsis object,\nnamed ``Ellipsis`` (a built-in name).\n\nIt is written as ``Ellipsis``.\n',
13 'bltin-file-objects': u'\nFile Objects\n************\n\nFile objects are implemented using C\'s ``stdio`` package and can be\ncreated with the built-in ``open()`` function. File objects are also\nreturned by some other built-in functions and methods, such as\n``os.popen()`` and ``os.fdopen()`` and the ``makefile()`` method of\nsocket objects. Temporary files can be created using the ``tempfile``\nmodule, and high-level file operations such as copying, moving, and\ndeleting files and directories can be achieved with the ``shutil``\nmodule.\n\nWhen a file operation fails for an I/O-related reason, the exception\n``IOError`` is raised. This includes situations where the operation\nis not defined for some reason, like ``seek()`` on a tty device or\nwriting a file opened for reading.\n\nFiles have the following methods:\n\nfile.close()\n\n Close the file. A closed file cannot be read or written any more.\n Any operation which requires that the file be open will raise a\n ``ValueError`` after the file has been closed. Calling ``close()``\n more than once is allowed.\n\n As of Python 2.5, you can avoid having to call this method\n explicitly if you use the ``with`` statement. For example, the\n following code will automatically close *f* when the ``with`` block\n is exited:\n\n from __future__ import with_statement # This isn\'t required in Python 2.6\n\n with open("hello.txt") as f:\n for line in f:\n print line\n\n In older versions of Python, you would have needed to do this to\n get the same effect:\n\n f = open("hello.txt")\n try:\n for line in f:\n print line\n finally:\n f.close()\n\n Note: Not all "file-like" types in Python support use as a context\n manager for the ``with`` statement. If your code is intended to\n work with any file-like object, you can use the function\n ``contextlib.closing()`` instead of using the object directly.\n\nfile.flush()\n\n Flush the internal buffer, like ``stdio``\'s ``fflush()``. This may\n be a no-op on some file-like objects.\n\n Note: ``flush()`` does not necessarily write the file\'s data to disk.\n Use ``flush()`` followed by ``os.fsync()`` to ensure this\n behavior.\n\nfile.fileno()\n\n Return the integer "file descriptor" that is used by the underlying\n implementation to request I/O operations from the operating system.\n This can be useful for other, lower level interfaces that use file\n descriptors, such as the ``fcntl`` module or ``os.read()`` and\n friends.\n\n Note: File-like objects which do not have a real file descriptor should\n *not* provide this method!\n\nfile.isatty()\n\n Return ``True`` if the file is connected to a tty(-like) device,\n else ``False``.\n\n Note: If a file-like object is not associated with a real file, this\n method should *not* be implemented.\n\nfile.next()\n\n A file object is its own iterator, for example ``iter(f)`` returns\n *f* (unless *f* is closed). When a file is used as an iterator,\n typically in a ``for`` loop (for example, ``for line in f: print\n line``), the ``next()`` method is called repeatedly. This method\n returns the next input line, or raises ``StopIteration`` when EOF\n is hit when the file is open for reading (behavior is undefined\n when the file is open for writing). In order to make a ``for``\n loop the most efficient way of looping over the lines of a file (a\n very common operation), the ``next()`` method uses a hidden read-\n ahead buffer. As a consequence of using a read-ahead buffer,\n combining ``next()`` with other file methods (like ``readline()``)\n does not work right. However, using ``seek()`` to reposition the\n file to an absolute position will flush the read-ahead buffer.\n\n New in version 2.3.\n\nfile.read([size])\n\n Read at most *size* bytes from the file (less if the read hits EOF\n before obtaining *size* bytes). If the *size* argument is negative\n or omitted, read all data until EOF is reached. The bytes are\n returned as a string object. An empty string is returned when EOF\n is encountered immediately. (For certain files, like ttys, it\n makes sense to continue reading after an EOF is hit.) Note that\n this method may call the underlying C function ``fread()`` more\n than once in an effort to acquire as close to *size* bytes as\n possible. Also note that when in non-blocking mode, less data than\n was requested may be returned, even if no *size* parameter was\n given.\n\n Note: This function is simply a wrapper for the underlying ``fread()``\n C function, and will behave the same in corner cases, such as\n whether the EOF value is cached.\n\nfile.readline([size])\n\n Read one entire line from the file. A trailing newline character\n is kept in the string (but may be absent when a file ends with an\n incomplete line). [5] If the *size* argument is present and non-\n negative, it is a maximum byte count (including the trailing\n newline) and an incomplete line may be returned. When *size* is not\n 0, an empty string is returned *only* when EOF is encountered\n immediately.\n\n Note: Unlike ``stdio``\'s ``fgets()``, the returned string contains null\n characters (``\'\\0\'``) if they occurred in the input.\n\nfile.readlines([sizehint])\n\n Read until EOF using ``readline()`` and return a list containing\n the lines thus read. If the optional *sizehint* argument is\n present, instead of reading up to EOF, whole lines totalling\n approximately *sizehint* bytes (possibly after rounding up to an\n internal buffer size) are read. Objects implementing a file-like\n interface may choose to ignore *sizehint* if it cannot be\n implemented, or cannot be implemented efficiently.\n\nfile.xreadlines()\n\n This method returns the same thing as ``iter(f)``.\n\n New in version 2.1.\n\n Deprecated since version 2.3: Use ``for line in file`` instead.\n\nfile.seek(offset[, whence])\n\n Set the file\'s current position, like ``stdio``\'s ``fseek()``. The\n *whence* argument is optional and defaults to ``os.SEEK_SET`` or\n ``0`` (absolute file positioning); other values are ``os.SEEK_CUR``\n or ``1`` (seek relative to the current position) and\n ``os.SEEK_END`` or ``2`` (seek relative to the file\'s end). There\n is no return value.\n\n For example, ``f.seek(2, os.SEEK_CUR)`` advances the position by\n two and ``f.seek(-3, os.SEEK_END)`` sets the position to the third\n to last.\n\n Note that if the file is opened for appending (mode ``\'a\'`` or\n ``\'a+\'``), any ``seek()`` operations will be undone at the next\n write. If the file is only opened for writing in append mode (mode\n ``\'a\'``), this method is essentially a no-op, but it remains useful\n for files opened in append mode with reading enabled (mode\n ``\'a+\'``). If the file is opened in text mode (without ``\'b\'``),\n only offsets returned by ``tell()`` are legal. Use of other\n offsets causes undefined behavior.\n\n Note that not all file objects are seekable.\n\n Changed in version 2.6: Passing float values as offset has been\n deprecated.\n\nfile.tell()\n\n Return the file\'s current position, like ``stdio``\'s ``ftell()``.\n\n Note: On Windows, ``tell()`` can return illegal values (after an\n ``fgets()``) when reading files with Unix-style line-endings. Use\n binary mode (``\'rb\'``) to circumvent this problem.\n\nfile.truncate([size])\n\n Truncate the file\'s size. If the optional *size* argument is\n present, the file is truncated to (at most) that size. The size\n defaults to the current position. The current file position is not\n changed. Note that if a specified size exceeds the file\'s current\n size, the result is platform-dependent: possibilities include that\n the file may remain unchanged, increase to the specified size as if\n zero-filled, or increase to the specified size with undefined new\n content. Availability: Windows, many Unix variants.\n\nfile.write(str)\n\n Write a string to the file. There is no return value. Due to\n buffering, the string may not actually show up in the file until\n the ``flush()`` or ``close()`` method is called.\n\nfile.writelines(sequence)\n\n Write a sequence of strings to the file. The sequence can be any\n iterable object producing strings, typically a list of strings.\n There is no return value. (The name is intended to match\n ``readlines()``; ``writelines()`` does not add line separators.)\n\nFiles support the iterator protocol. Each iteration returns the same\nresult as ``file.readline()``, and iteration ends when the\n``readline()`` method returns an empty string.\n\nFile objects also offer a number of other interesting attributes.\nThese are not required for file-like objects, but should be\nimplemented if they make sense for the particular object.\n\nfile.closed\n\n bool indicating the current state of the file object. This is a\n read-only attribute; the ``close()`` method changes the value. It\n may not be available on all file-like objects.\n\nfile.encoding\n\n The encoding that this file uses. When Unicode strings are written\n to a file, they will be converted to byte strings using this\n encoding. In addition, when the file is connected to a terminal,\n the attribute gives the encoding that the terminal is likely to use\n (that information might be incorrect if the user has misconfigured\n the terminal). The attribute is read-only and may not be present\n on all file-like objects. It may also be ``None``, in which case\n the file uses the system default encoding for converting Unicode\n strings.\n\n New in version 2.3.\n\nfile.errors\n\n The Unicode error handler used along with the encoding.\n\n New in version 2.6.\n\nfile.mode\n\n The I/O mode for the file. If the file was created using the\n ``open()`` built-in function, this will be the value of the *mode*\n parameter. This is a read-only attribute and may not be present on\n all file-like objects.\n\nfile.name\n\n If the file object was created using ``open()``, the name of the\n file. Otherwise, some string that indicates the source of the file\n object, of the form ``<...>``. This is a read-only attribute and\n may not be present on all file-like objects.\n\nfile.newlines\n\n If Python was built with universal newlines enabled (the default)\n this read-only attribute exists, and for files opened in universal\n newline read mode it keeps track of the types of newlines\n encountered while reading the file. The values it can take are\n ``\'\\r\'``, ``\'\\n\'``, ``\'\\r\\n\'``, ``None`` (unknown, no newlines read\n yet) or a tuple containing all the newline types seen, to indicate\n that multiple newline conventions were encountered. For files not\n opened in universal newline read mode the value of this attribute\n will be ``None``.\n\nfile.softspace\n\n Boolean that indicates whether a space character needs to be\n printed before another value when using the ``print`` statement.\n Classes that are trying to simulate a file object should also have\n a writable ``softspace`` attribute, which should be initialized to\n zero. This will be automatic for most classes implemented in\n Python (care may be needed for objects that override attribute\n access); types implemented in C will have to provide a writable\n ``softspace`` attribute.\n\n Note: This attribute is not used to control the ``print`` statement,\n but to allow the implementation of ``print`` to keep track of its\n internal state.\n',
14 'bltin-null-object': u"\nThe Null Object\n***************\n\nThis object is returned by functions that don't explicitly return a\nvalue. It supports no special operations. There is exactly one null\nobject, named ``None`` (a built-in name).\n\nIt is written as ``None``.\n",
15 'bltin-type-objects': u"\nType Objects\n************\n\nType objects represent the various object types. An object's type is\naccessed by the built-in function ``type()``. There are no special\noperations on types. The standard module ``types`` defines names for\nall standard built-in types.\n\nTypes are written like this: ``<type 'int'>``.\n",
42 'id-classes': u'\nReserved classes of identifiers\n*******************************\n\nCertain classes of identifiers (besides keywords) have special\nmeanings. These classes are identified by the patterns of leading and\ntrailing underscore characters:\n\n``_*``\n Not imported by ``from module import *``. The special identifier\n ``_`` is used in the interactive interpreter to store the result of\n the last evaluation; it is stored in the ``__builtin__`` module.\n When not in interactive mode, ``_`` has no special meaning and is\n not defined. See section *The import statement*.\n\n Note: The name ``_`` is often used in conjunction with\n internationalization; refer to the documentation for the\n ``gettext`` module for more information on this convention.\n\n``__*__``\n System-defined names. These names are defined by the interpreter\n and its implementation (including the standard library). Current\n system names are discussed in the *Special method names* section\n and elsewhere. More will likely be defined in future versions of\n Python. *Any* use of ``__*__`` names, in any context, that does\n not follow explicitly documented use, is subject to breakage\n without warning.\n\n``__*``\n Class-private names. Names in this category, when used within the\n context of a class definition, are re-written to use a mangled form\n to help avoid name clashes between "private" attributes of base and\n derived classes. See section *Identifiers (Names)*.\n',
43 'identifiers': u'\nIdentifiers and keywords\n************************\n\nIdentifiers (also referred to as *names*) are described by the\nfollowing lexical definitions:\n\n identifier ::= (letter|"_") (letter | digit | "_")*\n letter ::= lowercase | uppercase\n lowercase ::= "a"..."z"\n uppercase ::= "A"..."Z"\n digit ::= "0"..."9"\n\nIdentifiers are unlimited in length. Case is significant.\n\n\nKeywords\n========\n\nThe following identifiers are used as reserved words, or *keywords* of\nthe language, and cannot be used as ordinary identifiers. They must\nbe spelled exactly as written here:\n\n and del from not while\n as elif global or with\n assert else if pass yield\n break except import print\n class exec in raise\n continue finally is return\n def for lambda try\n\nChanged in version 2.4: ``None`` became a constant and is now\nrecognized by the compiler as a name for the built-in object ``None``.\nAlthough it is not a keyword, you cannot assign a different object to\nit.\n\nChanged in version 2.5: Both ``as`` and ``with`` are only recognized\nwhen the ``with_statement`` future feature has been enabled. It will\nalways be enabled in Python 2.6. See section *The with statement* for\ndetails. Note that using ``as`` and ``with`` as identifiers will\nalways issue a warning, even when the ``with_statement`` future\ndirective is not in effect.\n\n\nReserved classes of identifiers\n===============================\n\nCertain classes of identifiers (besides keywords) have special\nmeanings. These classes are identified by the patterns of leading and\ntrailing underscore characters:\n\n``_*``\n Not imported by ``from module import *``. The special identifier\n ``_`` is used in the interactive interpreter to store the result of\n the last evaluation; it is stored in the ``__builtin__`` module.\n When not in interactive mode, ``_`` has no special meaning and is\n not defined. See section *The import statement*.\n\n Note: The name ``_`` is often used in conjunction with\n internationalization; refer to the documentation for the\n ``gettext`` module for more information on this convention.\n\n``__*__``\n System-defined names. These names are defined by the interpreter\n and its implementation (including the standard library). Current\n system names are discussed in the *Special method names* section\n and elsewhere. More will likely be defined in future versions of\n Python. *Any* use of ``__*__`` names, in any context, that does\n not follow explicitly documented use, is subject to breakage\n without warning.\n\n``__*``\n Class-private names. Names in this category, when used within the\n context of a class definition, are re-written to use a mangled form\n to help avoid name clashes between "private" attributes of base and\n derived classes. See section *Identifiers (Names)*.\n',
namespace
58 'print': u'\nThe ``print`` statement\n***********************\n\n print_stmt ::= "print" ([expression ("," expression)* [","]]\n | ">>" expression [("," expression)+ [","]])\n\n``print`` evaluates each expression in turn and writes the resulting\nobject to standard output (see below). If an object is not a string,\nit is first converted to a string using the rules for string\nconversions. The (resulting or original) string is then written. A\nspace is written befor
[all...] |