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doc: Expanded introductory text.
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* By writing your serial code to use libserialport, you enable it to work
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* transparently on any platform supported by the library.
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*
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* The operations that are supported are:
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*
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* - @ref Enumeration (obtaining a list of serial ports on the system)
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* - @ref Ports
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* - @ref Configuration (baud rate, parity, etc.)
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* - @ref Signals (modem control lines, breaks, etc.)
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* - @ref Data
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* - @ref Waiting
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* - @ref Errors
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*
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* libserialport is an open source project released under the LGPL3+ license.
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*
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* API principles
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* ==============
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* The library is maintained by the [sigrok](http://sigrok.org/) project. See
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* the [libserialport homepage](http://sigrok.org/wiki/Libserialport) for the
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* latest information.
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*
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* The API is simple, and designed to be a minimal wrapper around the serial
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* port support in each OS.
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* Source code is maintained in git at
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* [git://sigrok.org/libserialport](http://sigrok.org/gitweb/?p=libserialport.git).
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*
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* Most functions take a pointer to a struct sp_port, which represents a serial
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* port. These structures are always allocated and freed by the library, using
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* the functions in the @ref Enumeration "Enumeration" section.
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* Bugs are tracked at http://sigrok.org/bugzilla/.
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*
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* The library was conceived and designed by Martin Ling, is maintained by
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* Uwe Hermann, and has received contributions from several other developers.
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* See the git history for full credits.
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*
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* API information
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* ===============
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*
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* The API has been designed from scratch. It does not exactly resemble the
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* serial API of any particular operating system. Instead it aims to provide
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* a set of functions that can reliably be implemented across all operating
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* systems. These form a sufficient basis for higher level behaviour to
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* be implemented in a platform independent manner.
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*
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* If you are porting code written for a particular OS, you may find you need
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* to restructure things somewhat, or do without some specialised features.
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* For particular notes on porting existing code, see @ref Porting.
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*
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* The following subsections will help explain the principles of the API.
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* To jump directly into the detailed function documentation, see the
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* <a href="modules.html">categorised function lists</a>.
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*
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* Data structures
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* ---------------
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*
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* The library defines three data structures:
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*
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* - @ref sp_port, which represents a serial port.
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* See @ref Enumeration.
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* - @ref sp_port_config, which represents a port configuration.
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* See @ref Configuration.
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* - @ref sp_event_set, which represents a set of events.
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* See @ref Waiting.
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*
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* All these structures are allocated and freed by library functions. It is
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* the caller's responsibility to ensure that the correct calls are made to
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* free allocated structures after use.
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*
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* Return codes and error handling
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* -------------------------------
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*
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* Most functions have return type @ref sp_return and can return only four
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* possible error values:
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@ -75,6 +104,124 @@
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* Calls that succeed return @ref SP_OK, which is equal to zero. Some functions
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* declared @ref sp_return can also return a positive value for a successful
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* numeric result, e.g. sp_blocking_read() or sp_blocking_write().
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*
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* An error message is only available via sp_last_error_message() in the case
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* where SP_ERR_FAIL was returned by the previous function call. The error
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* message returned is that provided by the OS, using the current language
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* settings. It is an error to call sp_last_error_code() or
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* sp_last_error_message() except after a previous function call returned
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* SP_ERR_FAIL. The library does not define its own error codes or messages
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* to accompany other return codes.
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*
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* Thread safety
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* -------------
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*
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* Certain combinations of calls can be made concurrently, as follows.
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*
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* - Calls using different ports may always be made concurrently, i.e.
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* it is safe for separate threads to handle their own ports.
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*
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* - Calls using the same port may be made concurrently when one call
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* is a read operation and one call is a write operation, i.e. it is safe
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* to use separate "reader" and "writer" threads for the same port. See
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* below for which operations meet these definitions.
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*
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* Read operations:
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*
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* - sp_blocking_read()
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* - sp_blocking_read_next()
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* - sp_nonblocking_read()
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* - sp_input_waiting()
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* - sp_flush() with @ref SP_BUF_INPUT only.
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* - sp_wait() with @ref SP_EVENT_RX_READY only.
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*
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* Write operations:
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*
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* - sp_blocking_write()
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* - sp_nonblocking_write()
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* - sp_output_waiting()
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* - sp_drain()
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* - sp_flush() with @ref SP_BUF_OUTPUT only.
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* - sp_wait() with @ref SP_EVENT_TX_READY only.
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*
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* If two calls, on the same port, do not fit into one of these categories
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* each, then they may not be made concurrently.
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*
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* Debugging
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* ---------
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*
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* The library can output extensive tracing and debugging information. The
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* simplest way to use this is to set the environment variable
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* LIBSERIALPORT_DEBUG to any value; messages will then be output to the
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* standard error stream.
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*
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* This behaviour is implemented by a default debug message handling
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* callback. An alternative callback can be set using sp_set_debug_handler(),
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* in order to e.g. redirect the output elsewhere or filter it.
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*
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* No guarantees are made about the content of the debug output; it is chosen
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* to suit the needs of the developers and may change between releases.
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*
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* @anchor Porting
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* Porting
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* -------
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*
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* The following guidelines may help when porting existing OS-specific code
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* to use libserialport.
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*
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* ### Porting from Unix-like systems ###
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*
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* There are two main differences to note when porting code written for Unix.
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*
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* The first is that Unix traditionally provides a wide range of functionality
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* for dealing with serial devices at the OS level; this is exposed through the
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* termios API and dates to the days when serial terminals were common. If your
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* code relies on many of these facilities you will need to adapt it, because
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* libserialport provides only a raw 8-bit channel with no special handling.
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*
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* The second relates to blocking versus non-blocking I/O behaviour. In
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* Unix-like systems this is normally specified by setting the O_NONBLOCK
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* flag on the file descriptor, affecting the semantics of subsequent read()
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* and write() calls.
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*
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* In libserialport, blocking and nonblocking operations are both available at
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* any time. If your existing code ѕets O_NONBLOCK, you should use
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* sp_nonblocking_read() and sp_nonblocking_write() to get the same behaviour
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* as your existing read() and write() calls. If it does not, you should use
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* sp_blocking_read() and sp_blocking_write() instead. You may also find
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* sp_blocking_read_next() useful, which reproduces the semantics of a blocking
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* read() with VTIME = 0 and VMIN = 1 set in termios.
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*
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* Finally, you should take care if your program uses custom signal handlers.
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* The blocking calls provided by libserialport will restart system calls that
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* return with EINTR, so you will need to make your own arrangements if you
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* need to interrupt blocking operations when your signal handlers are called.
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* This is not an issue if you only use the default handlers.
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*
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* ### Porting from Windows ###
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*
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* The main consideration when porting from Windows is that there is no
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* direct equivalent for overlapped I/O operations.
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*
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* If your program does not use overlapped I/O, you can simply use
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* sp_blocking_read() and sp_blocking_write() as direct equivalents for
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* ReadFile() and WriteFile(). You may also find sp_blocking_read_next()
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* useful, which reproduces the special semantics of ReadFile() with
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* ReadIntervalTimeout and ReadTotalTimeoutMultiplier set to MAXDWORD
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* and 0 < ReadTotalTimeoutConstant < MAXDWORD.
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*
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* If your program makes use of overlapped I/O to continue work while a serial
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* operation is in progress, then you can achieve the same results using
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* sp_nonblocking_read() and sp_nonblocking_write().
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*
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* Generally, overlapped I/O is combined with either waiting for completion
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* once there is no more background work to do (using WaitForSingleObject() or
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* WaitForMultipleObjects()), or periodically checking for completion with
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* GetOverlappedResult(). If the aim is to start a new operation for further
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* data once the previous one has completed, you can instead simply call the
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* nonblocking functions again with the next data. If you need to wait for
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* completion, use sp_wait() to determine when the port is ready to send or
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* receive further data.
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*/
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#ifndef LIBSERIALPORT_LIBSERIALPORT_H
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