cxxl$help.HLP
Parameterized_manipulators
Each of these manipulators takes a single argument, operates on it
as described, and returns it.
Additional Information on:
lock(Mutex &)
resetiosflags(long)
setfill(int)
setiosflags(long)
setprecision(int)
setw(int w)
unlock(Mutex &)
filebuf
This class specializes the streambuf class to use a file as a
repository of characters. Writing to the file consumes characters;
reading from the file produces characters. Files that allow searches
are said to be seekable. When a file is readable and writable, the
filebuf object permits character insertion and extraction.
Header:
#include <fstream.hxx>
fstream
This class specializes the class iostream to files using a filebuf
object to do the input and output. Your program can perform common
operations, such as opening and closing files, without explicitly
mentioning filebuf objects.
Header:
#include <fstream.hxx>
ifstream
This class specializes the class istream to files using a filebuf
object to do the input. Your program can perform common operations,
such as opening and closing files, without explicitly mentioning
filebuf objects.
Header:
#include <fstream.hxx>
ios
Classes derived from the ios class provide an interface for
transferring formatted and unformatted information into and out of
streambuf objects.
Header:
#include <iostream.hxx>
Additional Information on:
Deriving_a_user_class
iostream
This class combines the classes istream and ostream. You use it to
carry out bidirectional operations (inserting into and extracting from
a single sequence of characters).
Header:
#include <iostream.hxx>
iostream_withassign
This class adds an assignment operator and a constructor with no
operands to the iostream class.
Header:
#include <iostream.hxx>
istream
This class provides facilities for formatted and unformatted
extraction from streambuf objects.
Header:
#include <iostream.hxx>
istream_withassign
This class adds an assignment operator and a constructor with no
operands to the istream class.
Header:
#include <iostream.hxx>
istrstream
This class specializes the istream class to perform extractions from
arrays of bytes in memory.
Header:
#include <strstream.hxx>
ofstream
This class specializes the class ostream to files using a filebuf
object to do the output. Your program can perform common operations,
such as opening and closing files, without explicitly mentioning
filebuf objects.
Header:
#include <fstream.hxx>
ostream
Objects of this class perform formatted and unformatted insertions
into streambuf objects.
Header:
#include <iostream.hxx>
ostream_withassign
This class adds an assignment operator and a constructor with no
operands to the ostream class.
Header:
#include <iostream.hxx>
ostrstream
This class specializes the ostream class to perform insertions into
arrays of bytes in memory.
Header:
#include <strstream.hxx>
stdiobuf
This class specializes the streambuf class for stdio FILEs. It uses
unbuffered mode, which causes all operations to be reflected immediately
in the FILE.
Header:
#include <stdiostream.hxx>
stdiostream
This class specializes the ios class for stdio FILEs; it also
specializes the ios class to use stdiobuf as its associated streambuf.
Header:
#include <stdiostream.hxx>
streambuf
This class supports buffers into which you can insert (put) or extract
(get) characters. It contains only the basic members for manipulating
the characters. To implement the functions of this class, use a
class derived from the streambuf class.
The protected members of this class present an interface to the
derived classes organized around the get, put, and reserve areas
(arrays of bytes), which are managed cooperatively by the base and
derived classes.
The reserve area is a sequence of characters with an associated get
pointer, put pointer, or both. This area serves mainly as a resource
in which to allocate space for the put and get areas. As characters
enter and exit the reserve area, the put and get areas change but the
reserve area remains fixed. A collection of character pointer values
defines the three areas. These pointers infer a boundary condition;
therefore, it may be helpful to consider such pointers as pointing
just before the byte but they actually point right at it.
Classes derived from streambuf vary in their handling of the get and
put pointers. The simplest are unidirectional buffers that permit only
get and put operations. Such classes serve as producers and consumers
of characters. Queue-like buffers (such as strstream and strstreambuf)
have a put and a get pointer that move independently of each other. In
such buffers, stored characters are queued until later fetched.
File-like buffers (such as filebuf) allow both get and put operations
but have their get and put pointers linked together, so that when one
pointer moves so does the other.
To manage the collections of characters in the get and put areas, you
can call virtual functions. Services supplied by virtual functions
include fetching more characters from an ultimate producer and
flushing a collection of characters to an ultimate consumer.
Header:
#include <iostream.hxx>
strstream
This class specializes iostream for storing in and fetching from
arrays of bytes. It handles all predefined data types, and provides an
extensive set of options for performing input and output on these data
types.
Header:
#include <strstream.hxx>
strstreambuf
Objects of this class let you use an array of bytes (a string of
characters) in memory as a streambuf for stream input/output
operations on various kinds of data. Mapping between abstract get and
put pointers and char* pointers is direct in the sense that a char* is
interpreted as pointing immediately ahead of the char it points to.
Moving the pointers corresponds to incrementing and decrementing the
char* values.
To accommodate the need for strings of arbitrary length, this class
supports a dynamic mode. When a strstreambuf object is in dynamic
mode, space for the character is allocated as needed. When the
sequence is extended too far, it is copied to a new array.
Header:
#include <strstream.hxx>
Manipulators
Manipulators are supplied to let executing programs insert values into or
extract values from a stream to cause some special effect as follows:
ios &dec(ios &s) Sets the conversion base format to decimal.
ios &hex(ios &s) Sets the conversion base format to hexadecimal.
ios &oct(ios &s) Sets the conversion base format to octal.
ios &lock(ios &s) Locks a predefined object
ios &unlock(ios &s) Unlcks a predefined object
istream &ws(istream &i) Extracts (skips) white-space characters.
ostream &endl(ostream &o) Ends a line by inserting a new-line character and
flushing.
ostream &ends(ostream &o) Ends a string by inserting a null (0) character.
ostream &flush(ostream &o) Flushes ostreams.
IMANIP(TYPE)
This class supplies predefined parameterized manipulators and provides
macros for user-defined parameterized manipulators for istream
objects.
Header:
#include <iomanip.hxx>
IOMANIP(TYPE)
This class supplies predefined parameterized manipulators and provides
macros for user-defined parameterized manipulators for iostream
objects.
Header:
#include <iomanip.hxx>
OMANIP(TYPE)
This class supplies predefined parameterized manipulators and provides
macros for user-defined parameterized manipulators for ostream
objects.
Header:
#include <iomanip.hxx>
SMANIP(TYPE)
This class supplies predefined parameterized manipulators and provides
macros for user-defined parameterized manipulators for ios objects.
Header:
#include <iomanip.hxx>
Predefined_stream_objects_synchronization
Two unparameterized locking and unlocking manipulators, lock and unlock,
are available for use in synchronizing access to the predefined stream
objects: cerr, cin, clog, and cout. If your application needs to lock
two or more of these objects at the same time, the application must
adhere to this locking order:
cin, cerr, clog, cout
The unlocking order is not important.
When your application calls a member function for a predefined stream
object, the member function will typically lock the object for the
duration of the call. Therefore, if your application has locked one of
the stream objects and then uses another, this use must also adhere to
the predefined locking order. For example, your application should not
send output to cerr while cout is locked.
The locking order necessarily matches the default 'ties' between the
stream objects as follows:
cin is tied to cout
cerr is tied to cout
clog is tied to cout
cout has no ties
Any input/output operation on a stream object causes the iostream
Package to flush the object to which it is tied. Thus, an output to
cerr flushes cout.
User-defined_stream_objects_synchronization
Two parameterized locking and unlocking manipulators, lock and unlock,
are available for use in synchronizing access to user-defined stream
objects. To use these manipulators, you must first define a Mutex
object which you then pass to the manipulator. The association
of a Mutex object with a stream object is not enforced by the iostream
package. This association is enforced only by a program developer.
For more information, see help on the Mutex_package.
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