DigistumpMirror/DigistumpArduino
1
0
Fork 0
mirror of https://github.com/digistump/DigistumpArduino.git synced 2025-04-28 07:39:02 -07:00
Code Issues Actions Packages Projects Releases Wiki Activity
DigistumpArduino/hardware/digistump/avr/libraries/DigisparkTinyPinChange/examples/RisingEdge/RisingEdge.ino

159 lines
6.2 KiB
C++
Raw Blame History

/*
_____ ____ __ _ ____ _ _ _ _
| __ \ / __ \ | \ | | / __ \ | | | | | | | |
| |__| | | / \_| | . \ | | / / \ \ | | | | \ \ / /
| _ / | | _ | |\ \| | | |__| | | | | | \ ' /
| | \ \ | \__/ | | | \ ' | | __ | \ \/ / | |
|_| \_\ \____/ |_| \__| |_| |_| \__/ |_| 2013/2014
http://p.loussouarn.free.fr
*******************************************************
* <TinyPinChange> library Demo *
* with debugging capabilities using *
* <SoftSerial> object as single wire serial interface *
*******************************************************
This sketch demonstrates how to use <TinyPinChange> library.
It counts all the RISING edges on 2 different pins.
/!\CAUTION/!\: as <TinyPinChange> library can be shared (and it is with SoftSerial in this sketch) , the user shall test if the changes are related to the declared pins.
Trick: By connecting Pin#1 to Pin#0 or to Pin#5 through a 1K resistor, you can generate transitions for testing purpose.
Output results are sent to a software serial.
And the great thing is: using a <SoftSerial> object as a bi-directionnal software serial port (half-duplex) on a single pin to communicate with the outside world!
To display the sketch results on a PC (in a Terminal):
1) Build the "Serial One Wire Debug Cable" and plug it to the regular RS232 port as depicted below,
2) Open your favorite Terminal at 38400,n,8,1: HyperTerminal, Teraterm (Windows) or Minicom, GtkTerm (Linux) and CoolTerm (MAC) does the trick.
3) You can also use the Serial Monitor of the arduino IDE: Tools->Serial Port and select your RS232 port (may be an USB virtual port), Rate=38400.
4) To enable the display, type 1, to disable, type 0 in the Terminal/Monitor.
SERIAL ONE WIRE
DEBUGGING CABLE
_______________ ________________
/ \___/\___/ \
____
.--------. | \
| GND |--------------------------------+---o5 \
| | 47K | | 9o |
| | .--###--' | o4 |
| DEBUG | 4.7K | | 8o |
| TX_RX |-------------------###--+--|<|------o3 | ---> To regular RS232 SubD 9 pins Male of PC or Serial/USB adapter
| PIN | ^ | 1N4148 | 7o |
| | | '-----------o2 |
'--------' | | 6o |
ATtiny85 Single | o1 /
(Digispark) I/O |____/
SubD 9 pins
Female
*/
#include <TinyPinChange.h>
#include <SoftSerial.h>
#define LED_PIN 1
#define DEBUG_TX_RX_PIN 2
#define FIRST_INPUT 0
#define SECOND_INPUT 5
volatile uint16_t FirstInputChangeCount = 0; /* Volatile since the variable will be updated in interruption */
volatile uint16_t SecondInputChangeCount = 0; /* Volatile since the variable will be updated in interruption */
SoftSerial MySerial(DEBUG_TX_RX_PIN, DEBUG_TX_RX_PIN, true); /* Tx/Rx on a single Pin !!! (Pin#2) */
uint8_t VirtualPortNb;
uint8_t VirtualPortNb_;
void setup()
{
TinyPinChange_Init();
MySerial.begin(38400); /* Trick: use a "high" data rate (less time wasted in ISR and for transmitting each character) */
VirtualPortNb = TinyPinChange_RegisterIsr(FIRST_INPUT, InterruptFunctionToCall);
VirtualPortNb_ = TinyPinChange_RegisterIsr(SECOND_INPUT, InterruptFunctionToCall);
/* Enable Pin Change for each pin */
TinyPinChange_EnablePin(FIRST_INPUT);
TinyPinChange_EnablePin(SECOND_INPUT);
MySerial.txMode();
MySerial.println(F("\n*** Tiny PinChange Demo (Rising Edge) ***"));
MySerial.print(F("Pin "));MySerial.print((int)FIRST_INPUT);
MySerial.print(F(" is part of virtual port "));MySerial.println((int)VirtualPortNb);
MySerial.print(F("Pin "));MySerial.print((int)SECOND_INPUT);
MySerial.print(F(" is part of virtual port "));MySerial.println((int)VirtualPortNb_);
MySerial.println(F("As you can see, virtual port is always port 0 for ATtiny85"));
MySerial.println(F("Remember <TinyPinChange> is also designed for UNO, MEGA, ATtiny84 and ATtiny167 ;-)"));
MySerial.println(F("Type 1 to start display, 0 to stop display"));
pinMode(LED_PIN, OUTPUT);
MySerial.rxMode(); /* Switch to Rx Mode */
}
/* Function called in interruption in case of change on pins */
void InterruptFunctionToCall(void)
{
if(TinyPinChange_RisingEdge(VirtualPortNb, FIRST_INPUT)) /* Check for FIRST_INPUT Rising Edge */
{
FirstInputChangeCount++; /* Only Rising edges are counted */
}
if(TinyPinChange_RisingEdge(VirtualPortNb_, SECOND_INPUT)) /* Check for SECOND_INPUT Rising Edge */
{
SecondInputChangeCount++; /* Only Rising edges are counted */
}
}
void loop()
{
static boolean State = HIGH, DisplayEnabled = true;
static uint32_t LedStartMs = millis(), DisplayStartMs = millis();
uint16_t LocalFirstInputChangeCount;
uint16_t LocalSecondInputChangeCount;
/* Blink the built-in LED */
if(millis() - LedStartMs >= 500)
{
LedStartMs = millis();
digitalWrite(LED_PIN, State);
State = !State; /* State will be inverted at the next digitalWrite() */
}
/* Get command from single wire SoftSerial */
if(MySerial.available())
{
switch(MySerial.read())
{
case '0':
DisplayEnabled = false;
break;
case '1':
DisplayEnabled = true;
break;
}
}
/* Diplay Transition numbers every second */
if((millis() - DisplayStartMs >= 1000) && DisplayEnabled)
{
DisplayStartMs = millis();
noInterrupts(); /* Mandatory since counters are 16 bits */
LocalFirstInputChangeCount = FirstInputChangeCount;
LocalSecondInputChangeCount = SecondInputChangeCount;
interrupts();
MySerial.txMode();
MySerial.print(F("FirstInputChangeCount="));MySerial.println(LocalFirstInputChangeCount);
MySerial.print(F("SecondInputChangeCount="));MySerial.println(LocalSecondInputChangeCount);
MySerial.rxMode();
}
}
Reference in New Issue View Git Blame Copy Permalink