Use OLED for screen. #8

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W1CDN wants to merge 2 commits from oled into main
2 changed files with 63 additions and 37 deletions

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@ -15,3 +15,5 @@ framework = arduino
lib_deps =
etherkit/Etherkit Si5351@^2.1.4
paulstoffregen/Encoder@^1.4.4
adafruit/Adafruit GFX Library@^1.11.9
adafruit/Adafruit SSD1306@^2.5.9

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@ -11,8 +11,18 @@
#include <Wire.h>
//#include <LiquidCrystal.h>
#include <si5351.h>
#include <Adafruit_GFX.h>
#include <Adafruit_SSD1306.h>
//----------- OLED ------------------
#define SCREEN_WIDTH 128 // OLED display width, in pixels
#define SCREEN_HEIGHT 64 // OLED display height, in pixels
// Declaration for an SSD1306 display connected to I2C (SDA, SCL pins)
#define OLED_RESET -1 // Reset pin # (or -1 if sharing Arduino reset pin)
Adafruit_SSD1306 display(SCREEN_WIDTH, SCREEN_HEIGHT, &Wire, OLED_RESET);
//----------- Variables & Declarations ---------------
/*
* The current and desired LISTENING FREQUENCY, which is not always the frequency being output by the Si5351.
@ -121,7 +131,7 @@ const long MAX_FREQ = 150000000;
//--------Si5351 Declaration---------------//
Si5351 si5351;
Si5351 si5351(0x61);
//SDA is on pin A4 for Arduino Uno
//SCL is on pin A5 for Arduino Uno
@ -315,6 +325,20 @@ char getPermission(){
}
void setup(){
Serial.begin(9600); // This program won't work unless baud is 9600...why?
Serial.println("Start me up.");
// SSD1306_SWITCHCAPVCC = generate display voltage from 3.3V internally
if(!display.begin(SSD1306_SWITCHCAPVCC, 0x3C)) {
Serial.println("SSD1306 allocation failed");
for(;;); // Don't proceed, loop forever
}
// Clear the buffer
display.clearDisplay();
display.drawPixel(10, 10, WHITE);
display.display(); // Call this AFTER any drawing command.
// inialize LCD, display welcome message
//lcd.begin(20, 4);
//delay(250);
@ -350,46 +374,46 @@ void setup(){
}
void loop(){
//if (displayNeedsUpdate) {displayInfo();}
//delay(80);
// //if (displayNeedsUpdate) {displayInfo();}
// //delay(80);
//detect whether encoder has changed position
long reading = encoder.read();
long encoderChange = reading - encoderPosition;
encoderPosition = reading;
// //detect whether encoder has changed position
// long reading = encoder.read();
// long encoderChange = reading - encoderPosition;
// encoderPosition = reading;
displayNeedsUpdate = false;
// displayNeedsUpdate = false;
//step up or down or change step size, for either button presses or encoder turns
if ((encoderChange > 0)){currFreq += steps[currMode][stepIndex]; currFreq = min(currFreq, MAX_FREQ); setFrequency_5351(currFreq); displayNeedsUpdate = true;}
if ((encoderChange < 0)){currFreq -= steps[currMode][stepIndex]; currFreq = max(currFreq, MIN_FREQ); setFrequency_5351(currFreq); displayNeedsUpdate = true;}
// //step up or down or change step size, for either button presses or encoder turns
// if ((encoderChange > 0)){currFreq += steps[currMode][stepIndex]; currFreq = min(currFreq, MAX_FREQ); setFrequency_5351(currFreq); displayNeedsUpdate = true;}
// if ((encoderChange < 0)){currFreq -= steps[currMode][stepIndex]; currFreq = max(currFreq, MIN_FREQ); setFrequency_5351(currFreq); displayNeedsUpdate = true;}
//pressing the encoder button increments through the possible step sizes for each mode
if (checkButtonPress(PIN_BUTTON_ENCODER)){stepIndex = (stepIndex + 1) % (NUM_STEP_OPTIONS[currMode]); displayNeedsUpdate = true;}
// //pressing the encoder button increments through the possible step sizes for each mode
// if (checkButtonPress(PIN_BUTTON_ENCODER)){stepIndex = (stepIndex + 1) % (NUM_STEP_OPTIONS[currMode]); displayNeedsUpdate = true;}
//pressing the mode button cycles through the available modes
if (checkButtonPress(PIN_BUTTON_MODE)){currMode = (currMode+1) % NUM_MODES; stepIndex = 0; setFrequency_5351(currFreq); displayNeedsUpdate = true;}
// //pressing the mode button cycles through the available modes
// if (checkButtonPress(PIN_BUTTON_MODE)){currMode = (currMode+1) % NUM_MODES; stepIndex = 0; setFrequency_5351(currFreq); displayNeedsUpdate = true;}
/*The mode button: if currFreq is inside an amateur band, save that frequency as the one to return to when
* the user returns to this band, and jump to the return frequency for the next higher band. Otherwise,
* just jump to the next higher band
*/
if (checkButtonPress(PIN_BUTTON_BAND)){
int currBand = getCurrentBand();
if (currBand >= 0){
lastBandFreq[currBand] = currFreq;
currFreq = lastBandFreq[(getCurrentBand() + 1) % NUM_BANDS];
setFrequency_5351(currFreq);
}
else if (currBand == -2 || currBand == -3){
currFreq = lastBandFreq[0];
setFrequency_5351(currFreq);
}
else if (currBand == -1){
for (int i = 0; i < NUM_BANDS; i++){
if (currFreq < lastBandFreq[i]){currFreq = lastBandFreq[i]; setFrequency_5351(currFreq); break;}
}
}
displayNeedsUpdate = true;
}
// /*The mode button: if currFreq is inside an amateur band, save that frequency as the one to return to when
// * the user returns to this band, and jump to the return frequency for the next higher band. Otherwise,
// * just jump to the next higher band
// */
// if (checkButtonPress(PIN_BUTTON_BAND)){
// int currBand = getCurrentBand();
// if (currBand >= 0){
// lastBandFreq[currBand] = currFreq;
// currFreq = lastBandFreq[(getCurrentBand() + 1) % NUM_BANDS];
// setFrequency_5351(currFreq);
// }
// else if (currBand == -2 || currBand == -3){
// currFreq = lastBandFreq[0];
// setFrequency_5351(currFreq);
// }
// else if (currBand == -1){
// for (int i = 0; i < NUM_BANDS; i++){
// if (currFreq < lastBandFreq[i]){currFreq = lastBandFreq[i]; setFrequency_5351(currFreq); break;}
// }
// }
// displayNeedsUpdate = true;
// }
}