- Author: Michael Adams (http://www.michael.net.nz)
- Copyright (C) 2016 Michael D K Adams.
- Released under the MIT license.
Button is a tiny library to make reading buttons very simple. It handles debouncing automatically, and monitoring of state.
Ahh buttons. Ahh debouncing! Sometimes you really wish you could ignore all the mechanics of debouncing, reading inputs, monitoring state, and just say... if (button.pressed())
and know that it'll only run once each time you press a button.
Or how about if (button.released())
, or button.toggled()
. It is such a simple concept, but in practice you need to set up timers, monitor input puts, set pullups, etc etc. On anything more than the most simple example, that can become quite a headache.
So fed up with all that I figured there had to be a better way. This library is the result.
- Super simple API.
- Handles debouncing.
- Sets the pin mode automatically.
- Lets you write code that triggers: ** based on the pin state (high or low) ** when a button is pressed ** when a button is released ** or when a button changes (i.e. pressing or releasing)
- An Arduino — http://arduino.cc/
- A button
Download the ZIP archive (https://github.com/madleech/Button/zipball/master), then open the Arduino IDE and choose Sketch > Include Library > Add .ZIP Library... and select your downloaded file.
You should now see in File > Examples > Button entires for the basic_usage example.
Here is the 'basic_usage' example program, included in the download:
#include <Button.h>
Button button1(2); // Connect your button between pin 2 and GND
Button button2(3); // Connect your button between pin 3 and GND
Button button3(4); // Connect your button between pin 4 and GND
void setup() {
button1.begin();
button2.begin();
button3.begin();
while (!Serial) { }; // for Leos
Serial.begin(9600);
}
void loop() {
if (button1.pressed())
Serial.println("Button 1 pressed");
if (button2.released())
Serial.println("Button 2 released");
if (button3.toggled()) {
if (button3.read() == Button::PRESSED)
Serial.println("Button 3 has been pressed");
else
Serial.println("Button 3 has been released");
}
}
Button(int pin) Creates a new Button.
void begin()
Call this in your setup
method to setup the button. All it does is set the correct pin mode.
bool pressed() Returns true when and only when the button is pressed. Until the button is released (in the debounced-sense of the word) this function won't return true again. So in effect, it returns true only while you are pressing the button, or to put it another way, it fires on a rising edge.
bool released()
Like pressed()
, but round the other way. So if you hold down a button, and then release it... that is when it fires.
bool toggled()
Returns true whenever the button is pressed or released, i.e., its position is toggled. To find out what the position actually is, you can use the read()
function.
bool read() Returns the current debounced state of the button, i.e. Button::PRESSED or Button::RELEASED.
bool has_changed() Returns whether the position/state of the button has changed after calling the previous read() function. Unlikely to be used except by Super Gurus.
Highs and lows, lows and highs The easiest way to connect a switch on an Arduino is to connect it between an input pin and ground, and use the internal pullup resistor to make sure it doesn't float. This is fine and dandy, but it can get a bit confusing, as a "pressed" button is logic level: low, while a "released" button is logic level: high.
So to make it a bit more obvious what you're talking about, you can use a couple of handy shortcuts: Button::PRESSED
and Button::RELEASED
which map to the expected values.
Copyright (c) 2016 Michael D K Adams. http://www.michael.net.nz/
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.