I'm trying to use class objects with the Arduino, but I keep running into problems. All I want to do is declare a class and create an object of that class. What would an example be?
问题:
回答1:
On Arduino 1.0, this compiles just fine:
class A
{
public:
int x;
virtual void f() { x=1; }
};
class B : public A
{
public:
int y;
virtual void f() { x=2; }
};
A *a;
B *b;
const int TEST_PIN = 10;
void setup()
{
a=new A();
b=new B();
pinMode(TEST_PIN,OUTPUT);
}
void loop()
{
a->f();
b->f();
digitalWrite(TEST_PIN,(a->x == b->x) ? HIGH : LOW);
}
回答2:
There is an excellent tutorial on how to create a library for the Arduino platform. A library is basically a class, so it should show you how its all done.
On Arduino you can use classes, but there are a few restrictions:
- No new and delete keywords
- No exceptions
- No libstdc++, hence no standard functions, templates or classes
You also need to make new files for your classes, you can't just declare them in your main sketch. You also will need to close the Arduino IDE when recompiling a library. That is why I use Eclipse as my Arduino IDE.
回答3:
http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1230935955 states:
By default, the Arduino IDE and libraries does not use the operator new and operator delete. It does support malloc() and free(). So the solution is to implement new and delete operators for yourself, to use these functions.
Code:
#include <stdlib.h> // for malloc and free void* operator new(size_t size) { return malloc(size); } void operator delete(void* ptr) { free(ptr); }
This let's you create objects, e.g.
C* c; // declare variable
c = new C(); // create instance of class C
c->M(); // call method M
delete(c); // free memory
Regards, tamberg
回答4:
I created this simple one a while back. The main challenge I had was to create a good build environment - a makefile that would compile and link/deploy everything without having to use the GUI. For the code, here is the header:
class AMLed
{
private:
uint8_t _ledPin;
long _turnOffTime;
public:
AMLed(uint8_t pin);
void setOn();
void setOff();
// Turn the led on for a given amount of time (relies
// on a call to check() in the main loop()).
void setOnForTime(int millis);
void check();
};
And here is the main source
AMLed::AMLed(uint8_t ledPin) : _ledPin(ledPin), _turnOffTime(0)
{
pinMode(_ledPin, OUTPUT);
}
void AMLed::setOn()
{
digitalWrite(_ledPin, HIGH);
}
void AMLed::setOff()
{
digitalWrite(_ledPin, LOW);
}
void AMLed::setOnForTime(int p_millis)
{
_turnOffTime = millis() + p_millis;
setOn();
}
void AMLed::check()
{
if (_turnOffTime != 0 && (millis() > _turnOffTime))
{
_turnOffTime = 0;
setOff();
}
}
It's more prettily formatted here: http://amkimian.blogspot.com/2009/07/trivial-led-class.html
To use, I simply do something like this in the .pde file:
#include "AM_Led.h"
#define TIME_LED 12 // The port for the LED
AMLed test(TIME_LED);
回答5:
My Webduino library is all based on a C++ class that implements a web server on top of the Arduino Ethernet shield. I defined the whole class in a .h file that any Arduino code can #include. Feel free to look at the code to see how I do it... I ended up just defining it all inline because there's no real reason to separately compile objects with the Arduino IDE.
回答6:
Can you provide an example of what did not work? As you likely know, the Wiring language is based on C/C++, however, not all of C++ is supported.
Whether you are allowed to create classes in the Wiring IDE, I'm not sure (my first Arduino is in the mail right now). I do know that if you wrote a C++ class, compiled it using AVR-GCC, then loaded it on your Arduino using AVRDUDE, it would work.
回答7:
On this page, the Arduino sketch defines a couple of Structs (plus a couple of methods) which are then called in the setup loop and main loop. Simple enough to interpret, even for a barely-literate programmer like me.