This is an implementation of a C++ standard library packaged as an Arduino library. The library supports teaching my CS-11M class by adding key C++ features into the Arduino environment.
The library is ported from uClibc++:
http://git.uclibc.org/uClibc++
With a streams implementation from Andy Brown's Arduino Library:
http://andybrown.me.uk/2011/01/15/the-standard-template-library-stl-for-avr-with-c-streams/
The ArduinoSTL header file contains code to bind a serial port of your choice to the stdio primitives. This happens automatically but the user must still call Serial.begin()
#include <ArduinoSTL.h>
void setup() {
Serial.begin(9600);
printf("Hello World\n");
}
When you include this header file you automatically get cin and cout based on Serial
. See below for how to specify your own device. Here's an example sketch using cin
and cout
.
#include <ArduinoSTL.h>
using namespace std;
void setup() {
Serial.begin(9600);
cout << "Feed me an integers." << endl;
}
void loop() {
int foo;
if (cin >> foo) {
cout << "You fed me " << foo << endl;
}else{
cin.clear();
cin.ignore();
}
}
You can change what serial port that cin
, cout
and printf()
use. You can use built-in serial ports (e.g. Serial1
on Leonardo) or you can use software serial ports that implement Stream
.
In src/ArduinoSTL.cpp
change the value of ARDUINOSTL_DEFAULT_SERIAL
. Leave the other defaults uncommented.
Set ARDUINO_DEFAULT_SERAL
to NULL
. Comment out the other defaults.
Here's an example sketch that uses SofwareSerial:
#include <ArduinoSTL.h>
#include <SoftwareSerial.h>
SoftwareSerial mySerial(0, 1);
namespace std {
ohserialstream cout(mySerial);
ihserialstream cin(mySerial);
}
void setup() {
mySerial.begin(9600);
ArduinoSTL_Serial.connect(mySerial);
}
Comment out ARDUINOSTL_DEFAULT_CIN_COUT
and nothing will be instantiated. You must comment out this flag if you intend to select a non-default serial port. There's no appreciable overhead for using printf()
so you cannot currently avoid initializaing it.
Printing of floats and doubles using cout
ignores format specifiers.
uClibc seems to be fairly complete. Strings and vectors both work, even with the limited amount of heap available to Arduino. The uClibc++ status page can be found here:
https://cxx.uclibc.org/status.html
Always use the latest Arduino IDE. This library uses the Arduino IDE Library Specification rev.2.1 with features only available on Arduino 1.6.10 and higher. The specification can be found here:
https://github.com/arduino/Arduino/wiki/Arduino-IDE-1.5:-Library-specification