@ -1,260 +0,0 @@
/*
* getMode function has been taken from https : //forum.arduino.cc/t/check-current-pinmode/232140
*/
# define UNKNOWN_PIN 0xFF
# define TX_PIN 1
# define RX_PIN 0
uint8_t getMode ( uint8_t pin ) {
uint8_t bitmask = digitalPinToBitMask ( pin ) ;
uint8_t port = digitalPinToPort ( pin ) ;
// I don't see an option for mega to return this, but whatever...
if ( port = = NOT_A_PIN ) return UNKNOWN_PIN ;
// Is there a bit we can check?
if ( bitmask = = 0 ) return UNKNOWN_PIN ;
// Is there only a single bit set?
if ( bitmask & bitmask - 1 ) return UNKNOWN_PIN ;
volatile uint8_t * reg , * out ;
reg = portModeRegister ( port ) ;
out = portOutputRegister ( port ) ;
if ( * reg & bitmask )
return OUTPUT ;
else if ( * out & bitmask )
return INPUT_PULLUP ;
else
return INPUT ;
}
uint8_t toggleState ( uint8_t pin ) {
uint8_t mode = getMode ( pin ) ;
switch ( mode ) {
case OUTPUT :
if ( digitalRead ( pin ) = = HIGH ) {
digitalWrite ( pin , LOW ) ;
return LOW ;
} else {
digitalWrite ( pin , HIGH ) ;
return HIGH ;
}
case INPUT_PULLUP :
pinMode ( pin , INPUT ) ;
return LOW ;
case INPUT :
pinMode ( pin , INPUT_PULLUP ) ;
return HIGH ;
default :
return UNKNOWN_PIN ;
}
}
uint8_t toggleMode ( uint8_t pin ) {
uint8_t mode = getMode ( pin ) ;
// declared here bc it won’ t let me inside the switch/case statement
uint8_t state ;
switch ( mode ) {
case OUTPUT :
state = digitalRead ( pin ) ;
pinMode ( pin , INPUT ) ;
digitalWrite ( pin , state ) ;
return getMode ( pin ) ; // probably sacrificed performance for readability here
case INPUT_PULLUP :
pinMode ( pin , OUTPUT ) ;
digitalWrite ( pin , HIGH ) ;
return OUTPUT ;
case INPUT :
pinMode ( pin , OUTPUT ) ;
digitalWrite ( pin , LOW ) ;
return OUTPUT ;
default :
return UNKNOWN_PIN ;
}
}
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
String waitForSerialInput ( uint8_t bytes ) {
uint8_t inputLength = 0 ;
String string = " " ;
uint8_t waitingCycles = 0 ;
while ( inputLength < bytes ) {
if ( Serial . available ( ) > 0 ) {
string = string + ( char ) Serial . read ( ) ;
inputLength = inputLength + 1 ;
waitingCycles = 0 ;
} else {
if ( waitingCycles > 100 ) {
Serial . print ( " . " ) ;
delay ( 500 ) ;
waitingCycles = 0 ;
} else {
waitingCycles = waitingCycles + 1 ;
}
}
}
return string ;
}
void runCommand ( ) {
uint8_t command = Serial . read ( ) ;
int analogPin ;
String mode ;
uint8_t pin ;
String state ;
switch ( ( char ) command ) {
case ' R ' : // run setup() again
Serial . print ( " R " ) ;
Serial . end ( ) ;
setup ( ) ;
return ;
case ' h ' : // print help information
Serial . print ( " h " ) ;
Serial . print ( F ( " \n \r "
" status (output from serial line) \n \r "
" <letter of command> command acknowledgement \n \r "
" . internal operation or waiting for input \n \r "
" <data> \n \r "
" s success \n \r "
" e error \n \r "
" \\ r \\ n ready (this message uses \n \r to not show up as \" ready \" after the first line) \n \r "
" commands (input to serial line) \n \r "
" R pseudo-reset \n \r "
" run setup again \n \r "
" h show help \n \r "
" m set mode \n \r "
" usage: followed by two digit pin number and o or i \n \r "
" set a pin to input or output mode \n \r "
" \" pinMode \" \n \r "
" x toggle mode \n \r "
" usage: followed by two digit pin number \n \r "
" toggle a pin's mode \n \r "
" enables pullup resistor for previously high output pins \n \r "
" sets output high for previous input pins with pullup enabled \n \r "
" a analog read \n \r "
" usage: followed by two digit analog pin number \n \r "
" returns state of an analog pin \n \r "
" pin number will be converted to digital pin automatically \n \r "
" r read \n \r "
" usage: followed by pin number \n \r "
" returns state of a pin \n \r "
" \" digitalRead \" \n \r "
" w write \n \r "
" usage: followed by two digit pin number and h or l \n \r "
" sets a pin to the desired state \n \r "
" sets pullup resistor for input pins \n \r "
" \" digitalWrite \" \n \r "
" p write pwm \n \r "
" usage: followed by two digit pin number and three digit value between 000 and 255 \n \r "
" \" analogWrite \" \n \r "
" t toggle pin state \n \r "
" usage: followed by two digit pin number \n \r "
" toggles state of output pins \n \r "
" toggles pullup resistor for input pins \n \r "
" l change led state \n \r "
" usage: followed by h (high), l (low) or t (toggle) \n \r "
" sets or toggles the state of LED_BUILTIN \n \r "
" q lock \n \r "
" lock the Arduino's state by running an infinite loop \n \r "
" \n \r s " ) ) ;
return ;
case ' m ' : // set pin mode
Serial . print ( " m " ) ;
pin = waitForSerialInput ( 2 ) . toInt ( ) ;
mode = waitForSerialInput ( 1 ) ;
if ( pin > = NUM_DIGITAL_PINS ) Serial . print ( " e " ) ;
else if ( mode = = " i " ) {
pinMode ( pin , INPUT ) ;
Serial . print ( " s " ) ;
} else if ( mode = = " o " ) {
pinMode ( pin , OUTPUT ) ;
Serial . print ( " s " ) ;
} else {
Serial . print ( " e " ) ;
}
return ;
case ' x ' : // toggle pin mode
Serial . print ( " x " ) ;
if ( toggleMode ( ( uint8_t ) waitForSerialInput ( 2 ) . toInt ( ) ) = = UNKNOWN_PIN ) Serial . print ( " e " ) ;
else Serial . print ( " s " ) ;
return ;
case ' a ' : // read analog pin
Serial . print ( " a " ) ;
analogPin = waitForSerialInput ( 2 ) . toInt ( ) ;
if ( analogPin > = NUM_ANALOG_INPUTS | | analogInputToDigitalPin ( analogPin ) < 0 ) {
Serial . print ( " e " ) ;
return ;
}
Serial . print ( analogRead ( analogInputToDigitalPin ( analogPin ) ) ) ;
Serial . print ( " s " ) ;
return ;
case ' r ' : // read digital value
/*bug:
The following " r " ( or any other text you may put there ) will never get printed despite this code branch being executed . Don ’ t ask me why or how .
Tested on Linux Mint 20.1 , Arduino IDE version 2 : 1.0 .5 + dfsg2 - 4.1
Tested with Arduino Uno and Nano 328 P
*/
Serial . print ( " r " ) ;
pin = waitForSerialInput ( 2 ) . toInt ( ) ;
if ( pin > = NUM_DIGITAL_PINS ) Serial . print ( " e " ) ;
else {
Serial . print ( digitalRead ( pin ) ) ;
Serial . print ( " s " ) ;
}
return ;
case ' w ' : // write digital pin
Serial . print ( " w " ) ;
pin = waitForSerialInput ( 2 ) . toInt ( ) ;
state = waitForSerialInput ( 1 ) ;
if ( pin > = NUM_DIGITAL_PINS ) Serial . print ( " e " ) ;
else if ( state = = " h " ) {
digitalWrite ( pin , HIGH ) ;
Serial . print ( " s " ) ;
} else if ( state = = " l " ) {
digitalWrite ( pin , LOW ) ;
Serial . print ( " s " ) ;
} else {
Serial . print ( " e " ) ;
}
return ;
default :
Serial . print ( " e " ) ;
}
}
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
void setup ( ) {
Serial . begin ( 230400 ) ;
// set all pins to input and low
for ( uint8_t i ; i < = NUM_DIGITAL_PINS ; i + + ) {
Serial . print ( " . " ) ;
if ( i = = TX_PIN | | i = = RX_PIN ) ;
else pinMode ( i , INPUT ) ;
}
Serial . print ( " . " ) ;
pinMode ( LED_BUILTIN , OUTPUT ) ; // set LED to output bc having it as an input would make little sense
while ( Serial . available ( ) > 0 ) {
Serial . print ( " . " ) ;
Serial . read ( ) ;
}
Serial . print ( " s \r \n " ) ;
// testing
}
void loop ( ) {
while ( true ) {
if ( Serial . available ( ) > 0 ) {
runCommand ( ) ;
Serial . print ( " \r \n " ) ; // send "ready" status information
}
}
}