WiFiThermostat/lib/Button-2.0.1

r89m Buttons

This library makes working with buttons easy.

Easily handle button events such as onPress, onHold, onHoldRepeat and onRelease. The same callback functions can be used with multiple buttons, helping to keep your code cleaner and more manageable.

Swap button types whenever you want - there's currently 3 supported types - PushButton, CapacitiveButton and MPR121Button but it is easy to create your own.

Examples

Here's some basic examples to show you just how easy using this library is!

#include <Button.h>
#include <ButtonEventCallback.h>
#include <BasicButton.h>

// Create an instance of BasicButton reading digital pin 5
BasicButton button = BasicButton(5);

void setup(){

    // When the button is first pressed, call the function onButtonPressed
    button.onPress(onButtonPressed);
}

void loop(){
    // Check the state of the button
    button.update();
}

void onButtonPressed(Button& btn){

    // The button was pressed - do something!
}

#include <Button.h>
#include <ButtonEventCallback.h>
#include <BasicButton.h>

// Create an instance of BasicButton reading digital pin 5
BasicButton button = BasicButton(5);

void setup(){

    // Open up the serial port so that we can write to it
    Serial.begin(9600);

    // When the button is first pressed, call the function onButtonPressed
    button.onPress(onButtonPressed);
    // Once the button has been held for 1 second (1000ms) call onButtonHeld. Call it again every 0.5s (500ms) until it is let go
    button.onHoldRepeat(1000, 500, onButtonHeld);
    // When the button is released, call onButtonReleased
    button.onRelease(onButtonReleased);
}

void loop(){
    // Check the state of the button
    button.update();
}

// btn is a reference to the button that fired the event. That means you can use the same event handler for many buttons
void onButtonPressed(Button& btn){

    Serial.println("button pressed");
}

// duration reports back how long it has been since the button was originally pressed.
// repeatCount tells us how many times this function has been called by this button.
void onButtonHeld(Button& btn, uint16_t duration, uint16_t repeatCount){

    Serial.print("button has been held for ");
    Serial.print(duration);
    Serial.print(" ms; this event has been fired ");
    Serial.print(repeatCount);
    Serial.println(" times");
}

// duration reports back the total time that the button was held down
void onButtonReleased(Button& btn, uint16_t duration){

    Serial.print("button released after ");
    Serial.print(duration);
    Serial.println(" ms");
}

Built-in Button Types

PushButton

A simple push button debounced using the Bounce library

Check out the examples!

CapacitiveButton

A capacitive touch button utilising the CapSense library

Check out the examples!

MPR121Button

A capacitive touch button utilising the MPR121 touch switch IC

Check out the examples!

BasicButton (not recommended!)

A simple button using digitalRead() to determine the state of the button. Does not perform any kind of debouncing, so false positives and multiple calls are likely. Use PushButton instead for a simple button.

This is only included so that you can get an example up-and-running quickly without needing any other dependencies.

Methods

boolean update()

Update the button state - this will call any callbacks that are necessary. Returns true if the state changes.

boolean is(Button& btn)

Return whether or not the button is the same as the btn passed

boolean isPressed()

Return whether or not the button is currently pressed.

Callbacks

CallbackAttachedResponse onPress(onPressCallbackFunction)

c++ void callThisFunctionOnPress(Button& btn){ // btn is a reference to the button that was pressed. }

### ```CallbackAttachedResponse onRelease```
There are 3 variations of onRelease:

#### ```CallbackAttachedResponse onRelease(onReleaseCallbackFunction)```

onReleaseCallbackFunction``` is a function which is called when the button is released. It must be defined with the parameters shown below

void callThisFunctionOnRelease(Button& btn, uint_16t duration){
  // btn is a reference to the button that was pressed
  // duration is how long the button was pressed for
}

CallbackAttachedResponse onRelease(uint_16t wait, onReleaseCallbackFunction)

As above, plus:

#### ```CallbackAttachedResponse onRelease(uint_16t wait, uint_16t max_wait, onReleaseCallbackFunction)```

As above, plus:

max_waitif the button is held for more thanmax_waitmsonReleaseCallbackFunction``` will not be called.

CallbackAttachedResponse onHold(uint_16t duration, onHoldCallbackFunction)

onHoldCallbackFunction``` is a function which is called when the button is held. It must be defined with the parameters shown below

void callThisFuntionOnHold(Button& btn, uint_16t duration){
  // btn is a reference to the button that was held
  // duration is how long the button was held for
}

CallbackAttachedResponse onHoldAndRepeat(uint_16t duration, uint_16t repeat_every, onHoldAndRepeatCallbackFunction)

repeat_everyhow long to wait beforeonHoldAndRepeatCallbackFunction``` is called repeatedly.

c++ void callThisFunctionOnHoldAndRepeat(Button& btn, uint16_t duration, uint8_t repeat_count){ // btn is a reference to the button that was held // duration is how long the button has been held for // repeat_count is the number of times the callback has been called }

## Enums

### ```CallbackAttachedResponse```

attSuccessful``` returned when a callback has successfully been attached

attNoMoreRoom returned when a callback could not be attached because there is not enough room. Check MAX_CALLBACKS_PER_BUTTON.

Constants

MAX_CALLBACKS_PER_BUTTON (default=3)

Defines the maximum number of callbacks per button. Increasing this number will allow more callbacks but will use marginally more memory and processing power. This can be changed on a sketch by sketch basis, simply define #MAX_CALLBACKS_PER_BUTTON before your #includes.