Matrixkeyboard works in Arduino

This commit is contained in:
Alexander Richter 2023-09-16 16:36:29 +02:00
parent 117e4fd90b
commit 8346f020d9

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@ -261,7 +261,7 @@ Adafruit_NeoPixel strip(DLEDcount, DLEDPin, NEO_GRB + NEO_KHZ800);//Color sequen
Matrix Keypads are supported. The input is NOT added as HAL Pin to LinuxCNC. Instead it is inserted to Linux as Keyboard direktly. Matrix Keypads are supported. The input is NOT added as HAL Pin to LinuxCNC. Instead it is inserted to Linux as Keyboard direktly.
So you could attach a QWERT* Keyboard to the arduino and you will be able to write in Linux with it (only while LinuxCNC is running!) So you could attach a QWERT* Keyboard to the arduino and you will be able to write in Linux with it (only while LinuxCNC is running!)
*/ */
#define KEYPAD //#define KEYPAD
#ifdef KEYPAD #ifdef KEYPAD
const int numRows = 4; // Define the number of rows in the matrix const int numRows = 4; // Define the number of rows in the matrix
const int numCols = 4; // Define the number of columns in the matrix const int numCols = 4; // Define the number of columns in the matrix
@ -281,16 +281,16 @@ int lastKey= -1;
#ifdef MULTIPLEXLEDS #ifdef MULTIPLEXLEDS
const int numVccPins = 8; // Number of rows in the matrix const int numVccPins = 3; // Number of rows in the matrix
const int numGndPins = 7; // Number of columns in the matrix const int numGndPins = 3; // Number of columns in the matrix
const int LedVccPins[] = {0,1,2,3,4,5,6,7}; // Arduino pins connected to rows const int LedVccPins[] = {3,4,5}; // Arduino pins connected to rows
const int LedGndPins[] = {8,9,10,11,12,13,14}; // Arduino pins connected to columns const int LedGndPins[] = {8,9,10}; // Arduino pins connected to columns
// Define the LED matrix // Define the LED matrix
int ledStates[numVccPins*numGndPins] = {0}; int ledStates[numVccPins*numGndPins] = {0};
unsigned long previousMillis = 0; unsigned long previousMillis = 0;
const unsigned long interval = 0; // Time (in milliseconds) per LED display const unsigned long interval = 1; // Time (in milliseconds) per LED display
int currentLED = 0; int currentLED = 0;
#endif #endif
@ -340,7 +340,7 @@ const int debounceDelay = 50;
byte KeyState = 0; byte KeyState = 0;
#endif #endif
#ifdef MULTIPLEXLEDS #ifdef MULTIPLEXLEDS
byte KeyLedStates[numRows*numCols]; byte KeyLedStates[numVccPins*numGndPins];
#endif #endif
#if QUADENCS == 1 #if QUADENCS == 1
const int QuadEncs = 1; const int QuadEncs = 1;
@ -924,18 +924,17 @@ void multiplexLeds() {
pinMode(LedGndPins[i], OUTPUT); pinMode(LedGndPins[i], OUTPUT);
digitalWrite(LedGndPins[i], HIGH); // Set to HIGH to disable all GND Pins digitalWrite(LedGndPins[i], HIGH); // Set to HIGH to disable all GND Pins
} }
if(ledStates[currentLED]==1){
if(ledStates[currentLED]==1){ digitalWrite(LedVccPins[currentLED%numVccPins],ledStates[currentLED]);
digitalWrite(LedVccPins[currentLED%numVccPins],ledStates[currentLED]); digitalWrite(LedGndPins[currentLED/numVccPins],LOW);
digitalWrite(LedGndPins[currentLED/numVccPins],LOW); #ifdef DEBUG
Serial.print(currentLED/numVccPins); //row Serial.print(currentLED%numVccPins); //row
Serial.print(":"); Serial.print("/ ");
Serial.println(currentLED%numVccPins); //column Serial.print(currentLED/numVccPins); //column
//delay(1); Serial.print(" wrt ");
} Serial.print(ledStates[currentLED]); //row
else{ //ignore LEDs that are shut off... Serial.println(" /");
currentLED++; #endif
previousMillis = currentMillis;
} }
if (currentMillis - previousMillis >= interval) { // Check if it's time to update the LED matrix if (currentMillis - previousMillis >= interval) { // Check if it's time to update the LED matrix