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.. highlight:: cpp

.. _lang-serialusb:

``SerialUSB``
=============

Used for communication between the Maple board and a computer.

.. contents:: Contents
   :local:

Introduction
------------

In addition to three :ref:`serial ports <lang-serial>`, the Maple's
STM32 microprocessor includes a dedicated USB peripheral.  This
peripheral is used to emulate a regular serial port for use as a
terminal (text read/write).  The emulated terminal is relatively slow
and inefficient; it is best for transferring data at regular serial
speeds (kilobaud).

Library access to the emulated serial port is provided through the
``SerialUSB`` object.  You can mostly use ``SerialUSB`` as a drop-in
replacement for ``Serial1``, ``Serial2``, and ``Serial3``.

.. warning:: The ``SerialUSB`` functionality includes a 50 millisecond
   timeout for writes, and does not try to detect if the USB host is
   "really" connected, or just enumerated and initialized.

   This means that if you have a number of calls to one of the
   ``SerialUSB`` ``write()`` or ``print()`` functions in your code,
   and you are not monitoring the emulated on a computer, your program
   will run much, much slower than if it is being monitored or totally
   disconnected (run off of a battery).

   You can avoid this behavior by :ref:`deciphering the port status
   using the DTR and RTS line status <lang-serialusb-safe-print>`; the
   behavior of these control lines is platform dependent and we no
   longer interpret them by default.

Library Documentation
---------------------

The ``SerialUSB`` object is an instance of the ``USBSerial`` class,
which is documented in this section.  This means that you can use any
of these functions by writing
``SerialUSB.functionName(arguments...)``.  For example, to print the
message "hello, world!", you can write ``USBSerial.println("hello,
world!")``.

.. cpp:class:: USBSerial

   Emulated serial-over-USB class.  ``SerialUSB`` is the predefined
   (singleton) instance.

.. _lang-serialusb-begin:

.. cpp:function:: USBSerial::begin()

   Set up the USB peripheral for emulated serial communication.  The
   peripheral is configured this way by default; calling this function
   should only be necessary if you have disabled the peripheral using
   ``SerialUSB.end()``.

.. _lang-serialusb-end:

.. cpp:function:: USBSerial::end()

   Disables the USB peripheral.  Note that using this function will
   terminate all USB communications between the Maple and the USB
   host; in particular, it implies that you won't be able to upload
   any new programs without resetting the board or using
   :ref:`perpetual bootloader mode
   <troubleshooting-perpetual-bootloader>`.

.. cpp:function:: unsigned int USBSerial::available()

   Returns the number of bytes available for reading.

.. _lang-serialusb-read:

.. cpp:function:: unsigned char USBSerial::read()

   Returns the next available, unread character.  If there are no
   available characters (you can check this with :cpp:func:`available
   <USBSerial::available>`), the call will block until one
   becomes available.

.. cpp:function:: USBSerial::print(unsigned char b)

   Print the given byte over the USB connection.

.. cpp:function:: USBSerial::print(char c)

   Print the given character over the USB connection.  7-bit clean characters
   are typically interpreted as ASCII text.

.. cpp:function:: USBSerial::print(const char *str)

   Print the given null-terminated string over the USB connection.

.. cpp:function:: USBSerial::print(int n)

   Print the argument's digits over the USB connection, in decimal format.
   Negative values will be prefixed with a ``'-'`` character.

.. cpp:function:: USBSerial::print(unsigned int n)

   Print the argument's digits over the USB connection, in decimal format.

.. cpp:function:: USBSerial::print(long long n)

   Print the argument's digits over the USB connection, in decimal
   format.  Negative values will be prefixed with a ``'-'`` character.

.. cpp:function:: USBSerial::print(unsigned long long n)

   Print the argument's digits over the USB connection, in decimal
   format.

.. _lang-serial-print-n-base:

.. cpp:function:: USBSerial::print(int n, int base)

   Print the digits of ``n`` over USB, in base ``base``.  The ``base``
   value 2 corresponds to binary, 8 to octal, 10 to decimal, and 16 to
   hexadecimal (you can also use the symbolic constants ``BIN``,
   ``OCT``, ``DEC``, ``HEX``).  If ``base`` is 10, negative values
   will be prefixed with a ``'-'`` character (otherwise, ``n`` will be
   interpreted as an unsigned quantity).

.. cpp:function:: HardwareSerial::print(long long n, int base)

   Same behavior as the above :ref:`print(int n, int base)
   <lang-serialusb-print-n-base>`, except with 64-bit values.

.. cpp:function:: USBSerial::print(double n)

   Print ``n``, accurate to 6 digits after the decimal point.

.. _lang-serialusb-println:

.. cpp:function:: USBSerial::println(char c)

   Like ``print(c)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(const char *c)

   Like ``print(c)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(unsigned char b)

   Like ``print(b)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(int n)

   Like ``print(n)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(unsigned int n)

   Like ``print(n)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(long long n)

   Like ``print(n)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(unsigned long long n)

   Like ``print(n)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(int n, int base)

   Like ``print(n, b)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(long long n, int base)

   Like ``print(n, b)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println(double n)

   Like ``print(n)``, followed by ``"\r\n"``.

.. cpp:function:: USBSerial::println()

   Prints ``"\r\n"`` over the USB connection.

.. cpp:function:: USBSerial::write(unsigned char ch)

   Sends one character over the USB connection.  This function is
   currently blocking, although nonblocking writes are a planned
   future extension.

   This is a low-level function.  One of the ``print()`` or
   ``println()`` functions is likely to be more useful when printing
   multiple characters, when formatting numbers for printing, etc.

.. cpp:function:: USBSerial::write(const char* str)

   Send the given null-terminated character string over the USB
   connection.

   This is a low-level function.  One of the ``print()`` or
   ``println()`` functions is likely to be more useful when printing
   multiple characters, when formatting numbers for printing, etc.

.. cpp:function:: USBSerial::write(void *buf, unsigned int size)

   Writes the first ``size`` bytes of ``buf`` over the USB connection.
   Each byte is transmitted as an individual character.

   This is a low-level function.  One of the ``print()`` or
   ``println()`` functions is likely to be more useful when printing
   multiple characters, when formatting numbers for printing, etc.

Examples
--------

.. _lang-serialusb-safe-print:

**Safe print**: This function should run smoothly and not block; the
LED should blink at roughly the same speed whether being monitored,
running from battery, or connected but not monitored. You may need to
experiment with the DTR/RTS logic for your platform and device
configuration. ::

    #define LED_PIN 13

    void setup() {
        /* Set up the LED to blink  */
        pinMode(LED_PIN, OUTPUT);
    }

    void loop() {
        // LED will stay off if we are disconnected;
        // will blink quickly if USB is unplugged (battery etc)
        if(SerialUSB.isConnected()) {
            digitalWrite(LED_PIN, 1);
        }
        delay(100);

        // If this logic fails to detect if bytes are going to
        // be read by the USB host, then the println() will fully
        // many times, causing a very slow LED blink.
        // If the characters are printed and read, the blink will
        // only slow a small amount when "really" connected, and fast
        // when the virtual port is only configured.
        if(SerialUSB.isConnected() && (SerialUSB.getDTR() || SerialUSB.getRTS())) {
            for(int i=0; i<10; i++) {
               SerialUSB.println(123456,BIN);
            }
        }
        digitalWrite(LED_PIN, 0);
        delay(100);
    }