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TEF6686_remastered.ino
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TEF6686_remastered.ino
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/*
********************************************************************************
Advanced Tuner software for NXP TEF668x ESP32
(c) 2023 Sjef Verhoeven pe5pvb@het-bar.net & Noobish noobish@noobish.eu
Based on Catena / NXP semiconductors API
********************************************************************************
Analog signalmeter:
to meter
|
R V
IO27 -------=====-----=====---|
1 k 5 k POT
********************************************************************************
Setup:
During boot:
Hold BW button to change rotary encoder direction
Hold Mode button the flip screen
Hold Standby button to calibrate analogue s-meter
Hold rotary button to switch between normal and optical rotary encoder
Manual:
STANDBY SHORT PRESS: Switch band
STANDBY LONG PRESS: Standby
ROTARY SHORT PRESS: Set stepsize or navigate
ROTARY LONG PRESS: Toggle iMS & EQ
MODE SHORT PRESS: Switch between auto/manual
or exit menu
MODE LONG PRESS: Open menu
BW SHORT PRESS: Switch bandwidth setting
BW LONG PRESS: Switch mono, or auto stereo
* ***********************************************
ATTENTION: If you want to compile this code, use Arduino Core for ESP32 v1.0.6 - newer versions won't work!
* ***********************************************
Use these settings in TFT_eSPI User_Setup.h
#define ILI9341_DRIVER
#define TFT_CS 5
#define TFT_DC 17
#define TFT_RST 16
#define LOAD_GLCD
#define LOAD_FONT2
#define LOAD_FONT4
#define LOAD_FONT6
#define LOAD_FONT7
#define LOAD_FONT8
#define LOAD_GFXFF
#define SMOOTH_FONT
#define SPI_FREQUENCY 10000000 (if you hear interference, consider lowering the frequency)
ALL OTHER SETTINGS SHOULD STAY !!!!
*/
#include "src/TEF6686.h"
#include "src/constants.h"
#include <EEPROM.h>
#include <Wire.h>
#include "SPIFFS.h"
#include <analogWrite.h> // https://github.com/ERROPiX/ESP32_AnalogWrite
#include <TFT_eSPI.h> // https://github.com/Bodmer/TFT_eSPI
#include <RotaryEncoder.h> // https://github.com/enjoyneering/RotaryEncoder
#include <Hash.h> // https://github.com/bbx10/Hash_tng
#include <WiFiConnect.h> // https://registry.platformio.org/libraries/mrfaptastic/WiFiConnect%20Lite
#include <ESPAsyncWebServer.h> // https://github.com/me-no-dev/ESPAsyncWebServer
#include <AsyncTCP.h> // https://github.com/me-no-dev/AsyncTCP
/* Button -> PIN connections */
#define ROTARY_PIN_A 34
#define ROTARY_PIN_B 36
#define ROTARY_BUTTON 39
#define PIN_POT 35
#define PWRBUTTON 4
#define BWBUTTON 25
#define MODEBUTTON 26
#define CONTRASTPIN 2
#define STANDBYLED 19
#define SMETERPIN 27
#define BATTERYPIN 13
#define BWINTERVAL 200 // Refresh interval for certain UI elements
//#define ARS // uncomment for BGR type display (ARS version)
#ifdef ARS
#define VERSION "v1.22ARS"
#include "TFT_Colors.h"
TFT_eSPI tft = TFT_eSPI(320, 240);
#else
#define VERSION "v1.22"
TFT_eSPI tft = TFT_eSPI(240, 320);
#endif
RotaryEncoder encoder(ROTARY_PIN_A, ROTARY_PIN_B, ROTARY_BUTTON);
int16_t position = 0;
void ICACHE_RAM_ATTR encoderISR() {
encoder.readAB();
}
void ICACHE_RAM_ATTR encoderButtonISR() {
encoder.readPushButton();
}
bool tuned;
bool setupmode;
bool direction;
bool seek;
bool screenmute = false;
bool power = true;
bool change2;
bool BWreset;
bool menu;
bool menu2;
bool setupmenu;
bool menuopen = false;
bool menu2open = false;
bool LowLevelInit = false;
bool RDSstatusold;
bool SQ;
bool Stereostatusold;
bool StereoToggle = true;
bool store;
bool tunemode = false;
bool USBstatus = false;
bool WiFistatus = false;
bool wificonnect;
bool XDRMute;
bool wifisetupopen = false;
extern bool ProgramTP;
extern bool TPStatus;
byte band;
byte BWset;
byte ContrastSet;
byte displayflip;
byte freqoldcount;
byte rotarymode;
byte SStatusoldcount;
byte stepsize;
byte SignalUnits;
byte SNRold;
byte SNR;
byte LowLevelSet;
byte iMSset;
byte EQset;
byte iMSEQ;
byte TEF;
byte optenc;
byte RDSClear;
byte XDRGTKShutdown;
byte WiFiSwitch = EEPROM.readByte(63);
char buff[16];
char programServicePrevious[9];
char programTypePrevious[17];
char radioIdPrevious[4];
char radioTextPrevious[65];
int AGC;
int BWOld;
int ConverterSet;
int DeEmphasis;
int ForceMono;
int freqold;
int HighCutLevel;
int HighCutOffset;
int HighEdgeSet;
int LevelOffset;
int LowEdgeSet;
int menuoption = 30;
int menu2option = 30;
int MStatusold;
int OStatusold;
int peakholdold;
int peakholdtimer;
int lowsignaltimer;
int scanner_filter;
int Sqstatusold;
int Squelch;
int Squelchold;
int SStatusold;
int status = WL_IDLE_STATUS;
int StereoLevel;
int Stereostatus;
int VolSet;
int volume;
int XDRBWset;
int XDRBWsetold;
// Theme Engine Colors
int PrimaryColor;
int SecondaryColor;
int FrameColor;
int FrequencyColor;
int GreyoutColor;
int BackgroundColor;
int ActiveColor;
int OptimizerColor;
int RDSColor;
int StereoColor;
int CurrentTheme;
// Scrolling RT settings
int xPos = 6;
int yPos = 2;
int charWidth = tft.textWidth("AA");
uint16_t BW;
uint16_t MStatus;
int16_t OStatus;
int16_t SStatus;
uint16_t USN;
uint16_t WAM;
String ContrastString;
String ConverterString;
String CurrentThemeString;
String SignalUnitsString;
String cryptedpassword;
String HighCutLevelString;
String HighCutOffsetString;
String HighEdgeString;
String hostname = "ESP32 TEF6686 FM Tuner";
String LevelOffsetString;
String LowEdgeString;
String LowLevelString;
String password = "12345";
String salt;
String saltkey = " ";
String PIold;
String PSold;
String PTYold;
String RDSClearString;
String RTold;
String StereoLevelString;
String VolString;
String XDRGTKShutdownString;
String WiFiSwitchString;
// Extra settings strings
const char* SignalUnitsStrings[] = { "dBuV", "dBf" };
const char* RDSClearStrings[] = { "OFF", "ON" };
const char* XDRGTKShutdownStrings[] = { "OFF", "ON" };
const char* WiFiSwitchStrings[] = { "OFF", "ON" };
// Wi-Fi setup
const char* PARAM_INPUT_1 = "ssid";
const char* PARAM_INPUT_2 = "pass";
const char* PARAM_INPUT_3 = "ip";
const char* PARAM_INPUT_4 = "gateway";
String ssid;
String pass;
String ip;
String gateway;
const char* ssidPath = "/ssid.txt";
const char* passPath = "/pass.txt";
const char* ipPath = "/ip.txt";
const char* gatewayPath = "/gateway.txt";
IPAddress localIP;
IPAddress localGateway;
IPAddress subnet(255, 255, 255, 0);
unsigned long previousMillis = 0;
const long interval = 2500; // interval to wait for Wi-Fi connection (milliseconds)
uint16_t rdsB;
uint16_t rdsC;
uint16_t rdsD;
uint16_t rdsErr;
uint8_t buff_pos = 0;
uint8_t RDSstatus;
int16_t SAvg;
unsigned int change;
unsigned int freq_scan;
unsigned int frequency;
unsigned int frequency_AM;
unsigned int frequencyold;
unsigned int scanner_end;
unsigned int scanner_start;
unsigned int scanner_step;
unsigned long peakholdmillis;
unsigned long BWCLOCK = 0;
unsigned long RTCLOCK = 0;
unsigned long TPCLOCK = 0;
unsigned long VCLOCK = 0;
// Battery calculation
const int MAX_ANALOG_VAL = 4095;
const float MIN_BATTERY_VOLTAGE = 3.15;
const float MAX_BATTERY_VOLTAGE = 4.05;
int rawValue = analogRead(BATTERYPIN);
float voltageLevel = (rawValue / 4095.0) * 2 * 1.1 * 3.3 - 0.2; // calculate voltage level
float batteryFraction = (voltageLevel - MIN_BATTERY_VOLTAGE) / (MIN_BATTERY_VOLTAGE / MAX_BATTERY_VOLTAGE);
float batteryPercentage = batteryFraction * 100;
// Wi-Fi Setup Webpage HTML Code
const char index_html[] PROGMEM = "<!DOCTYPE html><html><head> <title>TEF6686 Wi-Fi Setup</title> <meta name='viewport' content='width=device-width, initial-scale=1'> <link rel='stylesheet' type='text/css' href='style.css'> <style> html { font-family: Arial, Helvetica, sans-serif; display: inline-block; text-align: center;}h1 { font-size: 1.8rem; color: #252525;}.topnav { overflow: hidden; background-color: #00ea8f; }body { margin: 0; background: #252525;}.content { padding: 5%;}.card { max-width: 800px; margin: 0 auto; background-color: white; padding: 5px 5% 5px 5%;}input[type=submit] { color: #252525; background-color: #00ea8f; border: 3px solid #252525; cursor: pointer; font-weight: bold; padding: 15px 15px; text-align: center; text-decoration: none; font-size: 16px; width: 160px; margin-top: 20px; margin-bottom: 10px; border-radius: 8px; transition: .3s ease-in-out; }input[type=submit]:hover { background-color: #252525; border: 3px solid #00ea8f; color: #00ea8f;}input[type=text], input[type=number], select { width: 100%; padding: 12px 20px; border: 1px solid #ccc; box-sizing: border-box;}a { text-decoration: none; color: #00ea8f;}p { font-size: 14px; text-transform: uppercase; text-align: left; margin: 0; margin-top: 15px;}.card p{ font-weight: bold;}.gateway-info{ text-transform: initial; text-align: center; color: white;} </style></head><body> <div class='topnav'> <h1>TEF6686 Wi-Fi SETUP</h1> </div> <div class='content'> <div class='card'> <form action='/' method='POST'> <p>SSID:</p> <input type='text' id ='ssid' name='ssid' placeholder='The exact name of your Wi-Fi network'><br> <p>Password:</p> <input type='text' id ='pass' name='pass' placeholder='Password to your Wi-Fi network'><br> <p>IP Address:</p> <input type='text' id ='ip' name='ip' placeholder='Example: 192.168.1.200'><br> <p>Gateway:</p> <input type='text' id ='gateway' name='gateway' placeholder='Example: 192.168.1.1'><br> <input type ='submit' value ='SUBMIT'> </form> </div> <p class='gateway-info'>If you're unsure, you can <a href='https://www.noip.com/support/knowledgebase/finding-your-default-gateway/' target='_blank'>look up how to get your gateway</a>.</p> </div></body></html>";
TEF6686 radio;
RdsInfo rdsInfo;
AsyncWebServer setupserver(80);
WiFiServer server(7373);
WiFiClient RemoteClient;
TFT_eSprite sprite = TFT_eSprite(&tft);
void initSPIFFS() {
if (!SPIFFS.begin(true)) {
Serial.println("An error has occurred while mounting SPIFFS");
}
}
// Read File from SPIFFS
String readFile(fs::FS& fs, const char* path) {
Serial.printf("Reading file: %s\r\n", path);
File file = fs.open(path);
if (!file || file.isDirectory()) {
Serial.println("- failed to open file for reading");
return String();
}
String fileContent;
while (file.available()) {
fileContent = file.readStringUntil('\n');
break;
}
return fileContent;
}
// Write file to SPIFFS
void writeFile(fs::FS& fs, const char* path, const char* message) {
Serial.printf("Writing file: %s\r\n", path);
File file = fs.open(path, FILE_WRITE);
if (!file) {
Serial.println("- failed to open file for writing");
return;
}
if (file.print(message)) {
Serial.println("- file written");
} else {
Serial.println("- frite failed");
}
}
bool initWiFi() {
if (ssid == "" || ip == "") {
Serial.println("Undefined SSID or IP address.");
return false;
}
if (ip != "") {
localIP.fromString(ip.c_str());
}
if (gateway != "") {
localGateway.fromString(gateway.c_str());
}
if (!WiFi.config(localIP, localGateway, subnet)) {
Serial.println("STA Failed to configure");
return false;
}
Serial.println(WiFi.localIP());
return true;
}
void setup() {
setupmode = true;
EEPROM.begin(64);
if (EEPROM.readByte(41) != 15) {
EEPROM.writeByte(2, 0);
EEPROM.writeByte(3, 0);
EEPROM.writeUInt(0, 10000);
EEPROM.writeInt(4, 0);
EEPROM.writeInt(8, 0);
EEPROM.writeInt(12, 87);
EEPROM.writeInt(16, 108);
EEPROM.writeInt(20, 50);
EEPROM.writeInt(24, 0);
EEPROM.writeInt(28, 0);
EEPROM.writeInt(32, 70);
EEPROM.writeInt(36, 0);
EEPROM.writeByte(41, 15);
EEPROM.writeByte(42, 0);
EEPROM.writeByte(43, 20);
EEPROM.writeByte(44, 1);
EEPROM.writeByte(45, 1);
EEPROM.writeByte(46, 0);
EEPROM.writeUInt(47, 828);
EEPROM.writeByte(52, 0);
EEPROM.writeByte(53, 0);
EEPROM.writeByte(54, 0);
EEPROM.writeByte(55, 0);
EEPROM.writeByte(56, 0);
EEPROM.writeByte(57, 0);
EEPROM.writeByte(58, 0);
EEPROM.writeInt(59, 0);
EEPROM.writeByte(63, 1);
EEPROM.commit();
}
frequency = EEPROM.readUInt(0);
VolSet = EEPROM.readInt(4);
ConverterSet = EEPROM.readInt(8);
LowEdgeSet = EEPROM.readInt(12);
HighEdgeSet = EEPROM.readInt(16);
ContrastSet = EEPROM.readInt(20);
LevelOffset = EEPROM.readInt(24);
StereoLevel = EEPROM.readInt(28);
HighCutLevel = EEPROM.readInt(32);
HighCutOffset = EEPROM.readInt(36);
stepsize = EEPROM.readByte(42);
LowLevelSet = EEPROM.readByte(43);
iMSset = EEPROM.readByte(44);
EQset = EEPROM.readByte(45);
band = EEPROM.readByte(46);
frequency_AM = EEPROM.readUInt(47);
rotarymode = EEPROM.readByte(52);
displayflip = EEPROM.readByte(53);
TEF = EEPROM.readByte(54);
optenc = EEPROM.readByte(55);
SignalUnits = EEPROM.readByte(56);
RDSClear = EEPROM.readByte(57);
XDRGTKShutdown = EEPROM.readByte(58);
CurrentTheme = EEPROM.readInt(59);
WiFiSwitch = EEPROM.readByte(63);
EEPROM.commit();
encoder.begin();
btStop();
Serial.begin(115200);
initSPIFFS();
ssid = readFile(SPIFFS, ssidPath);
pass = readFile(SPIFFS, passPath);
ip = readFile(SPIFFS, ipPath);
gateway = readFile(SPIFFS, gatewayPath);
WiFi.setHostname(hostname.c_str());
rawValue = analogRead(BATTERYPIN);
if (voltageLevel < 1.5) {
voltageLevel = voltageLevel * 3.6;
}
delay(50);
if (initWiFi()) {
if (WiFiSwitch == 0) {
WiFi.mode(WIFI_OFF);
} else {
WiFi.mode(WIFI_STA);
WiFi.begin(ssid.c_str(), pass.c_str());
server.begin();
}
}
SignalUnitsString = SignalUnitsStrings[SignalUnits];
RDSClearString = RDSClearStrings[RDSClear];
XDRGTKShutdownString = XDRGTKShutdownStrings[XDRGTKShutdown];
WiFiSwitchString = WiFiSwitchStrings[WiFiSwitch];
if (iMSset == 1 && EQset == 1) {
iMSEQ = 2;
}
if (iMSset == 0 && EQset == 1) {
iMSEQ = 3;
}
if (iMSset == 1 && EQset == 0) {
iMSEQ = 4;
}
if (iMSset == 0 && EQset == 0) {
iMSEQ = 1;
}
tft.init();
if (displayflip == 0) {
#ifdef ARS
tft.setRotation(0);
#else
tft.setRotation(3);
#endif
} else {
#ifdef ARS
tft.setRotation(2);
#else
tft.setRotation(1);
#endif
}
TEF = EEPROM.readByte(54);
if (TEF != 101 && TEF != 102 && TEF != 205) {
SetTunerPatch();
}
radio.init(TEF);
uint16_t device;
uint16_t hw;
uint16_t sw;
radio.getIdentification(device, hw, sw);
if (TEF != (highByte(hw) * 100 + highByte(sw))) {
SetTunerPatch();
}
doTheme();
sprite.createSprite(313, 18);
analogWrite(CONTRASTPIN, ContrastSet * 2 + 27);
analogWrite(SMETERPIN, 0);
uint8_t version;
radio.getIdentification(device, hw, sw);
version = highByte(hw) * 100 + highByte(sw);
pinMode(MODEBUTTON, INPUT);
pinMode(BWBUTTON, INPUT);
pinMode(CONTRASTPIN, OUTPUT);
pinMode(SMETERPIN, OUTPUT);
pinMode(BATTERYPIN, INPUT);
if (digitalRead(BWBUTTON) == LOW) {
if (rotarymode == 0) {
rotarymode = 1;
} else {
rotarymode = 0;
}
EEPROM.writeByte(52, rotarymode);
EEPROM.commit();
tft.fillScreen(BackgroundColor);
tft.setTextColor(SecondaryColor);
tft.drawCentreString("Rotary direction changed", 150, 70, 4);
tft.drawCentreString("Please release button", 150, 100, 4);
while (digitalRead(BWBUTTON) == LOW) {
delay(5);
}
}
if (digitalRead(MODEBUTTON) == LOW) {
if (displayflip == 0) {
displayflip = 1;
tft.setRotation(1);
} else {
displayflip = 0;
tft.setRotation(3);
}
EEPROM.writeByte(53, displayflip);
EEPROM.commit();
tft.fillScreen(BackgroundColor);
tft.setTextColor(SecondaryColor);
tft.drawCentreString("Screen flipped", 150, 70, 4);
tft.drawCentreString("Please release button", 150, 100, 4);
while (digitalRead(MODEBUTTON) == LOW) {
delay(50);
}
}
if (digitalRead(PWRBUTTON) == LOW) {
analogWrite(SMETERPIN, 511);
tft.fillScreen(BackgroundColor);
tft.setTextColor(SecondaryColor);
tft.drawCentreString("Calibrate analog meter", 150, 70, 4);
tft.drawCentreString("Release button when ready", 150, 100, 4);
while (digitalRead(PWRBUTTON) == LOW) {
delay(50);
}
analogWrite(SMETERPIN, 0);
}
if (digitalRead(ROTARY_BUTTON) == LOW) {
tft.fillScreen(BackgroundColor);
tft.setTextColor(SecondaryColor);
if (optenc == 0) {
optenc = 1;
tft.drawCentreString("encoder set to optical", 150, 70, 4);
} else {
optenc = 0;
tft.drawCentreString("encoder set to standard", 150, 70, 4);
}
EEPROM.writeByte(55, optenc);
EEPROM.commit();
tft.drawCentreString("Please release button", 150, 100, 4);
while (digitalRead(ROTARY_BUTTON) == LOW) {
delay(5);
}
}
/* Splash screen */
tft.setSwapBytes(true);
tft.fillScreen(BackgroundColor);
tft.fillCircle(160, 70, 60, PrimaryColor);
tft.fillCircle(160, 70, 52, BackgroundColor);
tft.drawBitmap(130, 60, TEFLogo, 59, 23, ActiveColor);
tft.setTextColor(ActiveColor);
tft.drawCentreString("NXP", 160, 42, 2);
tft.drawCentreString("TEF6686", 160, 85, 2);
tft.drawCentreString("AM/FM Receiver", 160, 145, 4);
tft.setTextColor(PrimaryColor);
if (CurrentTheme == 0) {
tft.setTextColor(FrameColor);
} else {
tft.setTextColor(GreyoutColor);
}
tft.drawString(String(VERSION), 10, 220, 2);
tft.drawRightString("Modded by Noobish.eu", 310, 205, 2);
tft.drawRightString("Original software by PE5PVB.nl", 310, 220, 2);
tft.fillRect(120, 180, 16, 6, GreyoutColor);
tft.fillRect(152, 180, 16, 6, GreyoutColor);
tft.fillRect(184, 180, 16, 6, GreyoutColor);
if (lowByte(device) != 14 && lowByte(device) != 1 && lowByte(device) != 9 && lowByte(device) != 3) {
tft.setTextColor(TFT_RED);
tft.drawString("Tuner: !None! (TEF ERROR)", 160, 20, 2);
while (true)
;
for (;;)
;
}
tft.drawString("Patch: v" + String(TEF), 10, 205, 2);
delay(200);
tft.fillRect(120, 180, 16, 6, PrimaryColor);
delay(375);
tft.fillRect(152, 180, 16, 6, PrimaryColor);
delay(375);
tft.fillRect(184, 180, 16, 6, PrimaryColor);
delay(375);
radio.setVolume(VolSet);
radio.setOffset(LevelOffset);
radio.setStereoLevel(StereoLevel);
radio.setHighCutLevel(HighCutLevel);
radio.setHighCutOffset(HighCutOffset);
radio.clearRDS();
radio.setMute();
LowLevelInit = true;
if (ConverterSet >= 200) {
Wire.beginTransmission(0x12);
Wire.write(ConverterSet >> 8);
Wire.write(ConverterSet & (0xFF));
Wire.endTransmission();
}
SelectBand();
ShowSignalLevel();
ShowBW();
setupmode = false;
attachInterrupt(digitalPinToInterrupt(ROTARY_PIN_A), encoderISR, CHANGE);
attachInterrupt(digitalPinToInterrupt(ROTARY_PIN_B), encoderISR, CHANGE);
attachInterrupt(digitalPinToInterrupt(ROTARY_BUTTON), encoderButtonISR, FALLING);
radio.setUnMute();
if (VolSet > 10) {
VolSet = 10;
}
}
void loop() {
if (digitalRead(PWRBUTTON) == LOW && USBstatus == false) {
PWRButtonPress();
}
if (power == true) {
if (seek == true) {
Seek(direction);
}
if (SStatus / 10 > LowLevelSet && LowLevelInit == false && menu == false && menu2 == false && band == 0) {
if (RDSClear == 1) {
radio.clearRDS();
sprite.fillSprite(BackgroundColor);
sprite.pushSprite(6, 220);
}
if (screenmute == false) {
sprite.fillSprite(BackgroundColor);
sprite.pushSprite(6, 220);
tft.setTextColor(SecondaryColor);
tft.drawString("20", 20, 153, 1);
tft.drawString("40", 50, 153, 1);
tft.drawString("60", 80, 153, 1);
tft.drawString("80", 110, 153, 1);
tft.drawString("100", 134, 153, 1);
tft.drawString("120", 164, 153, 1);
tft.drawString("%", 196, 153, 1);
tft.drawString("M", 6, 136, 2);
tft.drawString("PI:", 216, 195, 2);
tft.drawString("PS:", 6, 195, 2);
tft.drawString("PTY:", 6, 168, 2);
tft.drawLine(20, 150, 200, 150, TFT_DARKGREY);
}
LowLevelInit = true;
}
if (SStatus / 10 <= LowLevelSet && band == 0) {
if (LowLevelInit == true && menu == false && menu2 == false) {
radio.clearRDS();
if (screenmute == false) {
tft.setTextColor(BackgroundColor);
if (RDSClear == 1) {
sprite.fillSprite(BackgroundColor);
sprite.pushSprite(6, 220);
tft.drawString(PSold, 38, 192, 4);
tft.drawString(PIold, 244, 192, 4);
tft.drawString(RTold, 6, 222, 2);
tft.drawString(PTYold, 38, 168, 2);
tft.drawString("TP", 190, 168, 2);
}
tft.fillRect(20, 139, 12, 8, GreyoutColor);
tft.fillRect(34, 139, 12, 8, GreyoutColor);
tft.fillRect(48, 139, 12, 8, GreyoutColor);
tft.fillRect(62, 139, 12, 8, GreyoutColor);
tft.fillRect(76, 139, 12, 8, GreyoutColor);
tft.fillRect(90, 139, 12, 8, GreyoutColor);
tft.fillRect(104, 139, 12, 8, GreyoutColor);
tft.fillRect(118, 139, 12, 8, GreyoutColor);
tft.fillRect(132, 139, 12, 8, GreyoutColor);
tft.fillRect(146, 139, 12, 8, GreyoutColor);
tft.fillRect(160, 139, 12, 8, GreyoutColor);
tft.fillRect(174, 139, 12, 8, GreyoutColor);
tft.fillRect(188, 139, 12, 8, GreyoutColor);
tft.setTextColor(GreyoutColor);
tft.drawString("20", 20, 153, 1);
tft.drawString("40", 50, 153, 1);
tft.drawString("60", 80, 153, 1);
tft.drawString("80", 110, 153, 1);
tft.drawString("100", 134, 153, 1);
tft.drawString("120", 164, 153, 1);
tft.drawString("%", 196, 153, 1);
tft.drawString("M", 6, 136, 2);
tft.drawString("PI:", 216, 195, 2);
tft.drawString("PS:", 6, 195, 2);
tft.drawString("PTY:", 6, 168, 2);
tft.drawLine(20, 150, 200, 150, GreyoutColor);
tft.drawBitmap(110, 5, RDSLogo, 67, 22, GreyoutColor);
}
LowLevelInit = false;
}
if (millis() >= lowsignaltimer + 300) {
lowsignaltimer = millis();
if (band == 0) {
radio.getStatus(SStatus, USN, WAM, OStatus, BW, MStatus);
} else {
radio.getStatus_AM(SStatus, USN, WAM, OStatus, BW, MStatus);
}
if (screenmute == true) {
readRds();
}
if (menu == false && menu2 == false) {
doSquelch();
}
}
} else {
if (band == 0) {
radio.getStatus(SStatus, USN, WAM, OStatus, BW, MStatus);
} else {
radio.getStatus_AM(SStatus, USN, WAM, OStatus, BW, MStatus);
}
if (menu == false && menu2 == false) {
doSquelch();
readRds();
if (screenmute == false) {
ShowModLevel();
}
}
}
if (menu == false && menu2 == false) {
if (screenmute == false) {
showPI();
showTP();
showPTY();
showPS();
showRadioText();
//showPS();
ShowBatteryLevel();
ShowStereoStatus();
ShowOffset();
ShowSignalLevel();
ShowBW();
}
}
XDRGTKRoutine();
XDRCommunication();
XDRGTKWiFi();
if (encoder.getPushButton() == true) {
ButtonPress();
}
if (menu == true && menuopen == true && menuoption == 110) {
if (band == 0) {
radio.getStatus(SStatus, USN, WAM, OStatus, BW, MStatus);
} else {
radio.getStatus_AM(SStatus, USN, WAM, OStatus, BW, MStatus);
}
if (millis() >= lowsignaltimer + 500 || change2 == true) {
lowsignaltimer = millis();
change2 = false;
if (SStatus > SStatusold || SStatus < SStatusold) {
String count = String(SStatus / 10, DEC);
if (screenmute == false) {
tft.setTextColor(BackgroundColor);
if (SStatusold >= 0) {
if (SStatusoldcount <= 1) {
tft.setCursor(100, 140);
}
if (SStatusoldcount == 2) {
tft.setCursor(73, 140);
}
if (SStatusoldcount >= 3) {
tft.setCursor(46, 140);
}
} else {
if (SStatusoldcount <= 1) {
tft.setCursor(100, 140);
}
if (SStatusoldcount == 2) {
tft.setCursor(83, 140);
}
if (SStatusoldcount >= 3) {
tft.setCursor(56, 140);
}
}
tft.setTextFont(6);
tft.print(SStatusold / 10);
tft.print(".");
if (SStatusold < 0) {
String negative = String(SStatusold % 10, DEC);
if (SStatusold % 10 == 0) {
tft.print("0");
} else {
tft.print(negative[1]);
}
} else {
tft.print(SStatusold % 10);
}
tft.setTextColor(PrimaryColor, BackgroundColor);
if (SStatus >= 0) {
if (count.length() == 1) {
tft.setCursor(100, 140);
}
if (count.length() == 2) {
tft.setCursor(73, 140);
}
if (count.length() == 3) {
tft.setCursor(46, 140);
}
} else {
if (count.length() == 1) {
tft.setCursor(100, 140);
}
if (count.length() == 2) {
tft.setCursor(83, 140);
}
if (count.length() >= 3) {
tft.setCursor(56, 140);
}
}
tft.setTextFont(6);
tft.print(SStatus / 10);
tft.print(".");
if (SStatus < 0) {
String negative = String(SStatus % 10, DEC);
if (SStatus % 10 == 0) {
tft.print("0");
} else {
tft.print(negative[1]);
}
} else {
tft.print(SStatus % 10);
}
SStatusold = SStatus;
SStatusoldcount = count.length();
}
}
}
}
if (position < encoder.getPosition()) {
if (rotarymode == 0 && menu != true && menu2 != true) {
sprite.fillSprite(BackgroundColor);
sprite.pushSprite(6, 220);
radio.clearRDS();
tft.setTextColor(BackgroundColor);
tft.drawString(PSold, 38, 192, 4);
tft.drawString(PIold, 244, 192, 4);
tft.drawString(RTold, 6, 222, 2);
tft.drawString(PTYold, 38, 168, 2);
PSold = "";
PTYold = "";
PIold = "";
RTold = "";
KeyUp();
} else {
KeyDown();
}
}
if (position > encoder.getPosition()) {
if (rotarymode == 0 && menu != true && menu2 != true) {
sprite.fillSprite(BackgroundColor);
sprite.pushSprite(6, 220);
KeyDown();
radio.clearRDS();
tft.setTextColor(BackgroundColor);
tft.drawString(PSold, 38, 192, 4);
tft.drawString(PIold, 244, 192, 4);
tft.drawString(RTold, 6, 222, 2);
tft.drawString(PTYold, 38, 168, 2);
PSold = "";
PTYold = "";
PIold = "";
RTold = "";
} else {
KeyUp();
}
}
if (digitalRead(MODEBUTTON) == LOW && digitalRead(BWBUTTON) != LOW && screenmute == false) {
ModeButtonPress();
}
if (digitalRead(BWBUTTON) == LOW && digitalRead(MODEBUTTON) != LOW && screenmute == false) {
BWButtonPress();
}
if (store == true) {
change++;
}
if (change > 200 && store == true) {
detachInterrupt(digitalPinToInterrupt(ROTARY_PIN_A));
/* detachInterrupt(digitalPinToInterrupt(ROTARY_PIN_B));*/
detachInterrupt(digitalPinToInterrupt(ROTARY_BUTTON));
EEPROM.writeUInt(0, radio.getFrequency());
EEPROM.writeUInt(47, radio.getFrequency_AM());
EEPROM.writeByte(46, band);
EEPROM.commit();
store = false;
attachInterrupt(digitalPinToInterrupt(ROTARY_PIN_A), encoderISR, CHANGE);
attachInterrupt(digitalPinToInterrupt(ROTARY_PIN_B), encoderISR, CHANGE);
attachInterrupt(digitalPinToInterrupt(ROTARY_BUTTON), encoderButtonISR, FALLING);
}
}
}
void ShowBatteryLevel() {
if (millis() - VCLOCK >= interval) {
VCLOCK = millis();
if (WiFiSwitch == 0) {
rawValue = analogRead(BATTERYPIN);
voltageLevel = (rawValue / 4095.0) * 2 * 1.1 * 3.3 - 0.2; // calculate voltage level
tft.setTextColor(PrimaryColor);
tft.fillRect(215, 173, 30, 12, BackgroundColor); // clear the area before drawing
tft.drawString(String(voltageLevel) + "V", 215, 173, 1);
}
}
}
void PWRButtonPress() {
if (menu == false && menu2 == false) {
unsigned long counterold = millis();
unsigned long counter = millis();
while (digitalRead(PWRBUTTON) == LOW && counter - counterold <= 1000) {
counter = millis();
}
if (counter - counterold < 1000) {
if (power == false) {
ESP.restart();
} else {
if (band == 0) {
band = 1;
} else {
band = 0;
}
StoreFrequency();
SelectBand();
}
} else {
if (power == false) {
ESP.restart();
} else {
BuildMenu2();
menu2 = true;
}
}
while (digitalRead(PWRBUTTON) == LOW) {
delay(50);
}
delay(100);
}
}
void StoreFrequency() {
EEPROM.writeUInt(0, radio.getFrequency());
EEPROM.writeUInt(47, radio.getFrequency_AM());
EEPROM.writeByte(46, band);
EEPROM.commit();
}