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pstream.h
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pstream.h
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// PStreams - POSIX Process I/O for C++
// Copyright (C) 2001 - 2017 Jonathan Wakely
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
/**
* @file pstream.h
* @brief Declares all PStreams classes.
* @author Jonathan Wakely
*
* Defines classes redi::ipstream, redi::opstream, redi::pstream
* and redi::rpstream.
*/
/* do not compile on windows, which does not have cygwin */
#if defined(WIN32) || defined(_WIN32) || defined(__WIN32__) && !defined(__CYGWIN__)
#define NO_PSTREAM
#else
#ifndef REDI_PSTREAM_H_SEEN
#define REDI_PSTREAM_H_SEEN
#include <ios>
#include <streambuf>
#include <istream>
#include <ostream>
#include <string>
#include <vector>
#include <algorithm> // for min()
#include <cerrno> // for errno
#include <cstddef> // for size_t, NULL
#include <cstdlib> // for exit()
#include <sys/types.h> // for pid_t
#include <sys/wait.h> // for waitpid()
#include <sys/ioctl.h> // for ioctl() and FIONREAD
#if defined(__sun)
# include <sys/filio.h> // for FIONREAD on Solaris 2.5
#endif
#include <unistd.h> // for pipe() fork() exec() and filedes functions
#include <signal.h> // for kill()
#include <fcntl.h> // for fcntl()
#if REDI_EVISCERATE_PSTREAMS
# include <stdio.h> // for FILE, fdopen()
#endif
/// The library version.
#define PSTREAMS_VERSION 0x0101 // 1.0.1
/**
* @namespace redi
* @brief All PStreams classes are declared in namespace redi.
*
* Like the standard iostreams, PStreams is a set of class templates,
* taking a character type and traits type. As with the standard streams
* they are most likely to be used with @c char and the default
* traits type, so typedefs for this most common case are provided.
*
* The @c pstream_common class template is not intended to be used directly,
* it is used internally to provide the common functionality for the
* other stream classes.
*/
namespace redi
{
/// Common base class providing constants and typenames.
struct pstreams
{
/// Type used to specify how to connect to the process.
typedef std::ios_base::openmode pmode;
/// Type used to hold the arguments for a command.
typedef std::vector<std::string> argv_type;
/// Type used for file descriptors.
typedef int fd_type;
static const pmode pstdin = std::ios_base::out; ///< Write to stdin
static const pmode pstdout = std::ios_base::in; ///< Read from stdout
static const pmode pstderr = std::ios_base::app; ///< Read from stderr
/// Create a new process group for the child process.
static const pmode newpg = std::ios_base::trunc;
protected:
enum { bufsz = 32 }; ///< Size of pstreambuf buffers.
enum { pbsz = 2 }; ///< Number of putback characters kept.
};
/// Class template for stream buffer.
template <typename CharT, typename Traits = std::char_traits<CharT> >
class basic_pstreambuf
: public std::basic_streambuf<CharT, Traits>
, public pstreams
{
public:
// Type definitions for dependent types
typedef CharT char_type;
typedef Traits traits_type;
typedef typename traits_type::int_type int_type;
typedef typename traits_type::off_type off_type;
typedef typename traits_type::pos_type pos_type;
/** @deprecated use pstreams::fd_type instead. */
typedef fd_type fd_t;
/// Default constructor.
basic_pstreambuf();
/// Constructor that initialises the buffer with @a cmd.
basic_pstreambuf(const std::string& cmd, pmode mode);
/// Constructor that initialises the buffer with @a file and @a argv.
basic_pstreambuf( const std::string& file,
const argv_type& argv,
pmode mode );
/// Destructor.
~basic_pstreambuf();
/// Initialise the stream buffer with @a cmd.
basic_pstreambuf*
open(const std::string& cmd, pmode mode);
/// Initialise the stream buffer with @a file and @a argv.
basic_pstreambuf*
open(const std::string& file, const argv_type& argv, pmode mode);
/// Close the stream buffer and wait for the process to exit.
basic_pstreambuf*
close();
/// Send a signal to the process.
basic_pstreambuf*
kill(int signal = SIGTERM);
/// Send a signal to the process' process group.
basic_pstreambuf*
killpg(int signal = SIGTERM);
/// Close the pipe connected to the process' stdin.
void
peof();
/// Change active input source.
bool
read_err(bool readerr = true);
/// Report whether the stream buffer has been initialised.
bool
is_open() const;
/// Report whether the process has exited.
bool
exited();
#if REDI_EVISCERATE_PSTREAMS
/// Obtain FILE pointers for each of the process' standard streams.
std::size_t
fopen(FILE*& in, FILE*& out, FILE*& err);
#endif
/// Return the exit status of the process.
int
status() const;
/// Return the error number (errno) for the most recent failed operation.
int
error() const;
protected:
/// Transfer characters to the pipe when character buffer overflows.
int_type
overflow(int_type c);
/// Transfer characters from the pipe when the character buffer is empty.
int_type
underflow();
/// Make a character available to be returned by the next extraction.
int_type
pbackfail(int_type c = traits_type::eof());
/// Write any buffered characters to the stream.
int
sync();
/// Insert multiple characters into the pipe.
std::streamsize
xsputn(const char_type* s, std::streamsize n);
/// Insert a sequence of characters into the pipe.
std::streamsize
write(const char_type* s, std::streamsize n);
/// Extract a sequence of characters from the pipe.
std::streamsize
read(char_type* s, std::streamsize n);
/// Report how many characters can be read from active input without blocking.
std::streamsize
showmanyc();
protected:
/// Enumerated type to indicate whether stdout or stderr is to be read.
enum buf_read_src { rsrc_out = 0, rsrc_err = 1 };
/// Initialise pipes and fork process.
pid_t
fork(pmode mode);
/// Wait for the child process to exit.
int
wait(bool nohang = false);
/// Return the file descriptor for the output pipe.
fd_type&
wpipe();
/// Return the file descriptor for the active input pipe.
fd_type&
rpipe();
/// Return the file descriptor for the specified input pipe.
fd_type&
rpipe(buf_read_src which);
void
create_buffers(pmode mode);
void
destroy_buffers(pmode mode);
/// Writes buffered characters to the process' stdin pipe.
bool
empty_buffer();
bool
fill_buffer(bool non_blocking = false);
/// Return the active input buffer.
char_type*
rbuffer();
buf_read_src
switch_read_buffer(buf_read_src);
private:
basic_pstreambuf(const basic_pstreambuf&);
basic_pstreambuf& operator=(const basic_pstreambuf&);
void
init_rbuffers();
pid_t ppid_; // pid of process
fd_type wpipe_; // pipe used to write to process' stdin
fd_type rpipe_[2]; // two pipes to read from, stdout and stderr
char_type* wbuffer_;
char_type* rbuffer_[2];
char_type* rbufstate_[3];
/// Index into rpipe_[] to indicate active source for read operations.
buf_read_src rsrc_;
int status_; // hold exit status of child process
int error_; // hold errno if fork() or exec() fails
};
/// Class template for common base class.
template <typename CharT, typename Traits = std::char_traits<CharT> >
class pstream_common
: virtual public std::basic_ios<CharT, Traits>
, virtual public pstreams
{
protected:
typedef basic_pstreambuf<CharT, Traits> streambuf_type;
typedef pstreams::pmode pmode;
typedef pstreams::argv_type argv_type;
/// Default constructor.
pstream_common();
/// Constructor that initialises the stream by starting a process.
pstream_common(const std::string& cmd, pmode mode);
/// Constructor that initialises the stream by starting a process.
pstream_common(const std::string& file, const argv_type& argv, pmode mode);
/// Pure virtual destructor.
virtual
~pstream_common() = 0;
/// Start a process.
void
do_open(const std::string& cmd, pmode mode);
/// Start a process.
void
do_open(const std::string& file, const argv_type& argv, pmode mode);
public:
/// Close the pipe.
void
close();
/// Report whether the stream's buffer has been initialised.
bool
is_open() const;
/// Return the command used to initialise the stream.
const std::string&
command() const;
/// Return a pointer to the stream buffer.
streambuf_type*
rdbuf() const;
#if REDI_EVISCERATE_PSTREAMS
/// Obtain FILE pointers for each of the process' standard streams.
std::size_t
fopen(FILE*& in, FILE*& out, FILE*& err);
#endif
protected:
std::string command_; ///< The command used to start the process.
streambuf_type buf_; ///< The stream buffer.
};
/**
* @class basic_ipstream
* @brief Class template for Input PStreams.
*
* Reading from an ipstream reads the command's standard output and/or
* standard error (depending on how the ipstream is opened)
* and the command's standard input is the same as that of the process
* that created the object, unless altered by the command itself.
*/
template <typename CharT, typename Traits = std::char_traits<CharT> >
class basic_ipstream
: public std::basic_istream<CharT, Traits>
, public pstream_common<CharT, Traits>
, virtual public pstreams
{
typedef std::basic_istream<CharT, Traits> istream_type;
typedef pstream_common<CharT, Traits> pbase_type;
using pbase_type::buf_; // declare name in this scope
// Ensure a basic_ipstream will read from at least one pipe
pmode readable(pmode mode)
{
if (!(mode & (pstdout|pstderr)))
mode |= pstdout;
return mode;
}
public:
/// Type used to specify how to connect to the process.
typedef typename pbase_type::pmode pmode;
/// Type used to hold the arguments for a command.
typedef typename pbase_type::argv_type argv_type;
/// Default constructor, creates an uninitialised stream.
basic_ipstream()
: istream_type(NULL), pbase_type()
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling do_open() with the supplied
* arguments.
*
* @param cmd a string containing a shell command.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, pmode)
*/
explicit
basic_ipstream(const std::string& cmd, pmode mode = pstdout)
: istream_type(NULL), pbase_type(cmd, readable(mode))
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling do_open() with the supplied
* arguments.
*
* @param file a string containing the pathname of a program to execute.
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
basic_ipstream( const std::string& file,
const argv_type& argv,
pmode mode = pstdout )
: istream_type(NULL), pbase_type(file, argv, readable(mode))
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling
* @c do_open(argv[0],argv,mode|pstdout)
*
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
explicit
basic_ipstream(const argv_type& argv, pmode mode = pstdout)
: istream_type(NULL), pbase_type(argv.at(0), argv, readable(mode))
{ }
#if __cplusplus >= 201103L
template<typename T>
explicit
basic_ipstream(std::initializer_list<T> args, pmode mode = pstdout)
: basic_ipstream(argv_type(args.begin(), args.end()), mode)
{ }
#endif
/**
* @brief Destructor.
*
* Closes the stream and waits for the child to exit.
*/
~basic_ipstream()
{ }
/**
* @brief Start a process.
*
* Calls do_open( @a cmd , @a mode|pstdout ).
*
* @param cmd a string containing a shell command.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, pmode)
*/
void
open(const std::string& cmd, pmode mode = pstdout)
{
this->do_open(cmd, readable(mode));
}
/**
* @brief Start a process.
*
* Calls do_open( @a file , @a argv , @a mode|pstdout ).
*
* @param file a string containing the pathname of a program to execute.
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
void
open( const std::string& file,
const argv_type& argv,
pmode mode = pstdout )
{
this->do_open(file, argv, readable(mode));
}
/**
* @brief Set streambuf to read from process' @c stdout.
* @return @c *this
*/
basic_ipstream&
out()
{
this->buf_.read_err(false);
return *this;
}
/**
* @brief Set streambuf to read from process' @c stderr.
* @return @c *this
*/
basic_ipstream&
err()
{
this->buf_.read_err(true);
return *this;
}
};
/**
* @class basic_opstream
* @brief Class template for Output PStreams.
*
* Writing to an open opstream writes to the standard input of the command;
* the command's standard output is the same as that of the process that
* created the pstream object, unless altered by the command itself.
*/
template <typename CharT, typename Traits = std::char_traits<CharT> >
class basic_opstream
: public std::basic_ostream<CharT, Traits>
, public pstream_common<CharT, Traits>
, virtual public pstreams
{
typedef std::basic_ostream<CharT, Traits> ostream_type;
typedef pstream_common<CharT, Traits> pbase_type;
using pbase_type::buf_; // declare name in this scope
public:
/// Type used to specify how to connect to the process.
typedef typename pbase_type::pmode pmode;
/// Type used to hold the arguments for a command.
typedef typename pbase_type::argv_type argv_type;
/// Default constructor, creates an uninitialised stream.
basic_opstream()
: ostream_type(NULL), pbase_type()
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling do_open() with the supplied
* arguments.
*
* @param cmd a string containing a shell command.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, pmode)
*/
explicit
basic_opstream(const std::string& cmd, pmode mode = pstdin)
: ostream_type(NULL), pbase_type(cmd, mode|pstdin)
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling do_open() with the supplied
* arguments.
*
* @param file a string containing the pathname of a program to execute.
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
basic_opstream( const std::string& file,
const argv_type& argv,
pmode mode = pstdin )
: ostream_type(NULL), pbase_type(file, argv, mode|pstdin)
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling
* @c do_open(argv[0],argv,mode|pstdin)
*
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
explicit
basic_opstream(const argv_type& argv, pmode mode = pstdin)
: ostream_type(NULL), pbase_type(argv.at(0), argv, mode|pstdin)
{ }
#if __cplusplus >= 201103L
/**
* @brief Constructor that initialises the stream by starting a process.
*
* @param args a list of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
template<typename T>
explicit
basic_opstream(std::initializer_list<T> args, pmode mode = pstdin)
: basic_opstream(argv_type(args.begin(), args.end()), mode)
{ }
#endif
/**
* @brief Destructor
*
* Closes the stream and waits for the child to exit.
*/
~basic_opstream() { }
/**
* @brief Start a process.
*
* Calls do_open( @a cmd , @a mode|pstdin ).
*
* @param cmd a string containing a shell command.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, pmode)
*/
void
open(const std::string& cmd, pmode mode = pstdin)
{
this->do_open(cmd, mode|pstdin);
}
/**
* @brief Start a process.
*
* Calls do_open( @a file , @a argv , @a mode|pstdin ).
*
* @param file a string containing the pathname of a program to execute.
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
void
open( const std::string& file,
const argv_type& argv,
pmode mode = pstdin)
{
this->do_open(file, argv, mode|pstdin);
}
};
/**
* @class basic_pstream
* @brief Class template for Bidirectional PStreams.
*
* Writing to a pstream opened with @c pmode @c pstdin writes to the
* standard input of the command.
* Reading from a pstream opened with @c pmode @c pstdout and/or @c pstderr
* reads the command's standard output and/or standard error.
* Any of the process' @c stdin, @c stdout or @c stderr that is not
* connected to the pstream (as specified by the @c pmode)
* will be the same as the process that created the pstream object,
* unless altered by the command itself.
*/
template <typename CharT, typename Traits = std::char_traits<CharT> >
class basic_pstream
: public std::basic_iostream<CharT, Traits>
, public pstream_common<CharT, Traits>
, virtual public pstreams
{
typedef std::basic_iostream<CharT, Traits> iostream_type;
typedef pstream_common<CharT, Traits> pbase_type;
using pbase_type::buf_; // declare name in this scope
public:
/// Type used to specify how to connect to the process.
typedef typename pbase_type::pmode pmode;
/// Type used to hold the arguments for a command.
typedef typename pbase_type::argv_type argv_type;
/// Default constructor, creates an uninitialised stream.
basic_pstream()
: iostream_type(NULL), pbase_type()
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling do_open() with the supplied
* arguments.
*
* @param cmd a string containing a shell command.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, pmode)
*/
explicit
basic_pstream(const std::string& cmd, pmode mode = pstdout|pstdin)
: iostream_type(NULL), pbase_type(cmd, mode)
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling do_open() with the supplied
* arguments.
*
* @param file a string containing the pathname of a program to execute.
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
basic_pstream( const std::string& file,
const argv_type& argv,
pmode mode = pstdout|pstdin )
: iostream_type(NULL), pbase_type(file, argv, mode)
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling
* @c do_open(argv[0],argv,mode)
*
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
explicit
basic_pstream(const argv_type& argv, pmode mode = pstdout|pstdin)
: iostream_type(NULL), pbase_type(argv.at(0), argv, mode)
{ }
#if __cplusplus >= 201103L
/**
* @brief Constructor that initialises the stream by starting a process.
*
* @param l a list of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
template<typename T>
explicit
basic_pstream(std::initializer_list<T> l, pmode mode = pstdout|pstdin)
: basic_pstream(argv_type(l.begin(), l.end()), mode)
{ }
#endif
/**
* @brief Destructor
*
* Closes the stream and waits for the child to exit.
*/
~basic_pstream() { }
/**
* @brief Start a process.
*
* Calls do_open( @a cnd , @a mode ).
*
* @param cmd a string containing a shell command.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, pmode)
*/
void
open(const std::string& cmd, pmode mode = pstdout|pstdin)
{
this->do_open(cmd, mode);
}
/**
* @brief Start a process.
*
* Calls do_open( @a file , @a argv , @a mode ).
*
* @param file a string containing the pathname of a program to execute.
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
void
open( const std::string& file,
const argv_type& argv,
pmode mode = pstdout|pstdin )
{
this->do_open(file, argv, mode);
}
/**
* @brief Set streambuf to read from process' @c stdout.
* @return @c *this
*/
basic_pstream&
out()
{
this->buf_.read_err(false);
return *this;
}
/**
* @brief Set streambuf to read from process' @c stderr.
* @return @c *this
*/
basic_pstream&
err()
{
this->buf_.read_err(true);
return *this;
}
};
/**
* @class basic_rpstream
* @brief Class template for Restricted PStreams.
*
* Writing to an rpstream opened with @c pmode @c pstdin writes to the
* standard input of the command.
* It is not possible to read directly from an rpstream object, to use
* an rpstream as in istream you must call either basic_rpstream::out()
* or basic_rpstream::err(). This is to prevent accidental reads from
* the wrong input source. If the rpstream was not opened with @c pmode
* @c pstderr then the class cannot read the process' @c stderr, and
* basic_rpstream::err() will return an istream that reads from the
* process' @c stdout, and vice versa.
* Reading from an rpstream opened with @c pmode @c pstdout and/or
* @c pstderr reads the command's standard output and/or standard error.
* Any of the process' @c stdin, @c stdout or @c stderr that is not
* connected to the pstream (as specified by the @c pmode)
* will be the same as the process that created the pstream object,
* unless altered by the command itself.
*/
template <typename CharT, typename Traits = std::char_traits<CharT> >
class basic_rpstream
: public std::basic_ostream<CharT, Traits>
, private std::basic_istream<CharT, Traits>
, private pstream_common<CharT, Traits>
, virtual public pstreams
{
typedef std::basic_ostream<CharT, Traits> ostream_type;
typedef std::basic_istream<CharT, Traits> istream_type;
typedef pstream_common<CharT, Traits> pbase_type;
using pbase_type::buf_; // declare name in this scope
public:
/// Type used to specify how to connect to the process.
typedef typename pbase_type::pmode pmode;
/// Type used to hold the arguments for a command.
typedef typename pbase_type::argv_type argv_type;
/// Default constructor, creates an uninitialised stream.
basic_rpstream()
: ostream_type(NULL), istream_type(NULL), pbase_type()
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling do_open() with the supplied
* arguments.
*
* @param cmd a string containing a shell command.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, pmode)
*/
explicit
basic_rpstream(const std::string& cmd, pmode mode = pstdout|pstdin)
: ostream_type(NULL) , istream_type(NULL) , pbase_type(cmd, mode)
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling do_open() with the supplied
* arguments.
*
* @param file a string containing the pathname of a program to execute.
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
basic_rpstream( const std::string& file,
const argv_type& argv,
pmode mode = pstdout|pstdin )
: ostream_type(NULL), istream_type(NULL), pbase_type(file, argv, mode)
{ }
/**
* @brief Constructor that initialises the stream by starting a process.
*
* Initialises the stream buffer by calling
* @c do_open(argv[0],argv,mode)
*
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
explicit
basic_rpstream(const argv_type& argv, pmode mode = pstdout|pstdin)
: ostream_type(NULL), istream_type(NULL),
pbase_type(argv.at(0), argv, mode)
{ }
#if __cplusplus >= 201103L
/**
* @brief Constructor that initialises the stream by starting a process.
*
* @param l a list of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
template<typename T>
explicit
basic_rpstream(std::initializer_list<T> l, pmode mode = pstdout|pstdin)
: basic_rpstream(argv_type(l.begin(), l.end()), mode)
{ }
#endif
/// Destructor
~basic_rpstream() { }
/**
* @brief Start a process.
*
* Calls do_open( @a cmd , @a mode ).
*
* @param cmd a string containing a shell command.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, pmode)
*/
void
open(const std::string& cmd, pmode mode = pstdout|pstdin)
{
this->do_open(cmd, mode);
}
/**
* @brief Start a process.
*
* Calls do_open( @a file , @a argv , @a mode ).
*
* @param file a string containing the pathname of a program to execute.
* @param argv a vector of argument strings passed to the new program.
* @param mode the I/O mode to use when opening the pipe.
* @see do_open(const std::string&, const argv_type&, pmode)
*/
void
open( const std::string& file,
const argv_type& argv,
pmode mode = pstdout|pstdin )
{
this->do_open(file, argv, mode);
}
/**
* @brief Obtain a reference to the istream that reads
* the process' @c stdout.
* @return @c *this
*/
istream_type&
out()
{
this->buf_.read_err(false);
return *this;
}
/**
* @brief Obtain a reference to the istream that reads
* the process' @c stderr.
* @return @c *this
*/
istream_type&
err()
{
this->buf_.read_err(true);
return *this;
}
};
/// Type definition for common template specialisation.
typedef basic_pstreambuf<char> pstreambuf;
/// Type definition for common template specialisation.
typedef basic_ipstream<char> ipstream;
/// Type definition for common template specialisation.
typedef basic_opstream<char> opstream;
/// Type definition for common template specialisation.
typedef basic_pstream<char> pstream;
/// Type definition for common template specialisation.
typedef basic_rpstream<char> rpstream;
/**
* When inserted into an output pstream the manipulator calls
* basic_pstreambuf<C,T>::peof() to close the output pipe,
* causing the child process to receive the end-of-file indicator
* on subsequent reads from its @c stdin stream.
*
* @brief Manipulator to close the pipe connected to the process' stdin.
* @param s An output PStream class.
* @return The stream object the manipulator was invoked on.
* @see basic_pstreambuf<C,T>::peof()
* @relates basic_opstream basic_pstream basic_rpstream
*/
template <typename C, typename T>
inline std::basic_ostream<C,T>&
peof(std::basic_ostream<C,T>& s)
{
typedef basic_pstreambuf<C,T> pstreambuf_type;
if (pstreambuf_type* p = dynamic_cast<pstreambuf_type*>(s.rdbuf()))
p->peof();
return s;
}
/*
* member definitions for pstreambuf
*/
/**