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Clean up the recent HD44780 changes.
This commit is contained in:
Jonathan Naylor
273
HD44780.cpp
273
HD44780.cpp
@@ -29,7 +29,7 @@
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const char* LISTENING = "Listening ";
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CHD44780::CHD44780(unsigned int rows, unsigned int cols, const std::string& callsign, unsigned int dmrid, const std::vector<unsigned int>& pins, unsigned int PWM, unsigned int PWMPin, unsigned int PWMBright, unsigned int PWMDim) :
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CHD44780::CHD44780(unsigned int rows, unsigned int cols, const std::string& callsign, unsigned int dmrid, const std::vector<unsigned int>& pins, bool pwm, unsigned int pwmPin, unsigned int pwmBright, unsigned int pwmDim) :
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m_rows(rows),
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m_cols(cols),
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m_callsign(callsign),
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@@ -40,13 +40,10 @@ m_d0(pins.at(2U)),
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m_d1(pins.at(3U)),
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m_d2(pins.at(4U)),
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m_d3(pins.at(5U)),
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// WFV
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m_PWM(PWM),
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m_PWMPin(PWMPin),
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m_PWMBright(PWMBright),
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m_PWMDim(PWMDim),
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m_pwm(pwm),
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m_pwmPin(pwmPin),
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m_pwmBright(pwmBright),
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m_pwmDim(pwmDim),
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m_fd(-1),
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m_dmr(false)
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{
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@@ -62,20 +59,18 @@ bool CHD44780::open()
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{
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::wiringPiSetup();
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// WFV
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if (m_PWM == 1U) {
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if (m_PWMPin != 1U) {
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::softPwmCreate(m_PWMPin, 0, 100);
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::softPwmWrite(m_PWMPin, m_PWMDim);
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}
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else {
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::pinMode(m_PWMPin, PWM_OUTPUT);
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::pwmWrite(m_PWMPin, (m_PWMDim/100)*1024);
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if (m_pwm) {
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if (m_pwmPin != 1U) {
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::softPwmCreate(m_pwmPin, 0, 100);
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::softPwmWrite(m_pwmPin, m_pwmDim);
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} else {
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::pinMode(m_pwmPin, PWM_OUTPUT);
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::pwmWrite(m_pwmPin, (m_pwmDim / 100) * 1024);
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}
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}
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#ifdef ADAFRUIT_DISPLAY
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adafruitLCDSetup();
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adafruitLCDSetup();
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#endif
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m_fd = ::lcdInit(m_rows, m_cols, 4, m_rb, m_strb, m_d0, m_d1, m_d2, m_d3, 0, 0, 0, 0);
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@@ -94,76 +89,81 @@ bool CHD44780::open()
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#ifdef ADAFRUIT_DISPLAY
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void CHD44780::adafruitLCDSetup()
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{
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// The other control pins are initialised with lcdInit ()
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::mcp23017Setup (AF_BASE, MCP23017);
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// The other control pins are initialised with lcdInit()
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::mcp23017Setup(AF_BASE, MCP23017);
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// Backlight LEDs
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pinMode (AF_RED, OUTPUT);
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pinMode (AF_GREEN, OUTPUT);
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pinMode (AF_BLUE, OUTPUT);
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::pinMode(AF_RED, OUTPUT);
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::pinMode(AF_GREEN, OUTPUT);
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::pinMode(AF_BLUE, OUTPUT);
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// Control signals
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pinMode (AF_RW, OUTPUT);
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digitalWrite (AF_RW, LOW);
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::pinMode(AF_RW, OUTPUT);
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::digitalWrite(AF_RW, LOW);
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}
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void LCDColor(int color)
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void CHD44780::adafruitLCDColour(ADAFRUIT_COLOUR colour)
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{
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//VERY SIMPLE COLOR FUNCTION
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// By Giorgio
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//OFF
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if (color==0){digitalWrite (AF_RED, HIGH);digitalWrite (AF_GREEN, HIGH);digitalWrite (AF_BLUE, HIGH);} // OFF
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//BASIC
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if (color==1){digitalWrite (AF_RED, LOW);digitalWrite (AF_GREEN, LOW);digitalWrite (AF_BLUE, LOW);} // WHITE
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if (color==2){digitalWrite (AF_RED, LOW);digitalWrite (AF_GREEN, HIGH);digitalWrite (AF_BLUE, HIGH);} // RED
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if (color==3){digitalWrite (AF_RED, HIGH);digitalWrite (AF_GREEN, LOW);digitalWrite (AF_BLUE, HIGH);} // GREEN
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if (color==4){digitalWrite (AF_RED, HIGH);digitalWrite (AF_GREEN, HIGH);digitalWrite (AF_BLUE, LOW);} // BLUE
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//SPECIAL
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if (color==5){digitalWrite (AF_RED, LOW);digitalWrite (AF_GREEN, HIGH);digitalWrite (AF_BLUE, LOW);} // PURPLE
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if (color==6){digitalWrite (AF_RED, LOW);digitalWrite (AF_GREEN, LOW);digitalWrite (AF_BLUE, HIGH);} // YELLOW
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if (color==7){digitalWrite (AF_RED, HIGH);digitalWrite (AF_GREEN, LOW);digitalWrite (AF_BLUE, LOW);} // ICE
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// USE WITH:
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/*
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LCDColor(0); //OFF
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LCDColor(1); //WHITE
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LCDColor(2); //RED
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LCDColor(3); //GREEN
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LCDColor(4); //BLUE
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LCDColor(5); //PURPLE
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LCDColor(6); //YELLOW
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LCDColor(7); //ICE
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*/
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switch (colour) {
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case AC_OFF:
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::digitalWrite(AF_RED, HIGH);
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::digitalWrite(AF_GREEN, HIGH);
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::digitalWrite(AF_BLUE, HIGH);
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break;
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case AC_WHITE:
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::digitalWrite(AF_RED, LOW);
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::digitalWrite(AF_GREEN, LOW);
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::digitalWrite(AF_BLUE, LOW);
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break;
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case AC_RED:
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::digitalWrite(AF_RED, LOW);
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::digitalWrite(AF_GREEN, HIGH);
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::digitalWrite(AF_BLUE, HIGH);
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break;
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case AC_GREEN:
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::digitalWrite(AF_RED, HIGH);
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::digitalWrite(AF_GREEN, LOW);
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::digitalWrite(AF_BLUE, HIGH);
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break;
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case AC_BLUE:
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::digitalWrite(AF_RED, HIGH);
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::digitalWrite(AF_GREEN, HIGH);
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::digitalWrite(AF_BLUE, LOW);
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break;
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case AC_PURPLE:
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::digitalWrite(AF_RED, LOW);
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::digitalWrite(AF_GREEN, HIGH);
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::digitalWrite(AF_BLUE, LOW);
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break;
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case AC_YELLOW:
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::digitalWrite(AF_RED, LOW);
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::digitalWrite(AF_GREEN, LOW);
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::digitalWrite(AF_BLUE, HIGH);
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break;
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case AC_ICE:
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::digitalWrite(AF_RED, HIGH);
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::digitalWrite(AF_GREEN, LOW);
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::digitalWrite(AF_BLUE, LOW);
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break;
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default:
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break;
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}
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}
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#endif
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void CHD44780::setIdle()
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{
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::lcdClear(m_fd);
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(1); //WHITE
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adafruittLCDColour(AC_WHITE);
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#endif
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// WFV
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if (m_PWM == 1U) {
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if (m_PWMPin != 1U) {
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::softPwmWrite(m_PWMPin, m_PWMDim);
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}
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else {
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::pwmWrite(m_PWMPin, (m_PWMDim/100)*1024);
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}
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if (m_pwm) {
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if (m_pwmPin != 1U)
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::softPwmWrite(m_pwmPin, m_pwmDim);
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else
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::pwmWrite(m_pwmPin, (m_pwmDim / 100) * 1024);
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}
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::lcdPosition(m_fd, 0, 0);
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@@ -177,21 +177,19 @@ LCDColor(1); //WHITE
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void CHD44780::setError(const char* text)
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{
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(2); //RED
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#endif
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assert(text != NULL);
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#ifdef ADAFRUIT_DISPLAY
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adafruitLCDColour(AC_RED);
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#endif
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::lcdClear(m_fd);
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// WFV
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if (m_PWM == 1U) {
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if (m_PWMPin != 1U) {
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::softPwmWrite(m_PWMPin, m_PWMBright);
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}
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else {
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::pwmWrite(m_PWMPin, (m_PWMBright/100)*1024);
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}
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if (m_pwm) {
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if (m_pwmPin != 1U)
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::softPwmWrite(m_pwmPin, m_pwmBright);
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else
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::pwmWrite(m_pwmPin, (m_pwmBright / 100) * 1024);
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}
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::lcdPosition(m_fd, 0, 0);
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@@ -206,18 +204,16 @@ LCDColor(2); //RED
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void CHD44780::setLockout()
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{
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(2); //RED
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adafruitLCDColour(AC_RED);
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#endif
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::lcdClear(m_fd);
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// WFV
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if (m_PWM == 1U) {
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if (m_PWMPin != 1U) {
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::softPwmWrite(m_PWMPin, m_PWMBright);
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}
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else {
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::pwmWrite(m_PWMPin, (m_PWMBright/100)*1024);
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}
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if (m_pwm) {
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if (m_pwmPin != 1U)
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::softPwmWrite(m_pwmPin, m_pwmBright);
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else
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::pwmWrite(m_pwmPin, (m_pwmBright / 100) * 1024);
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}
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::lcdPosition(m_fd, 0, 0);
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@@ -237,16 +233,17 @@ void CHD44780::writeDStar(const char* my1, const char* my2, const char* your, co
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assert(type != NULL);
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assert(reflector != NULL);
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#ifdef ADAFRUIT_DISPLAY
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adafruitLCDColour(AC_RED);
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#endif
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::lcdClear(m_fd);
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// WFV
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if (m_PWM == 1U) {
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if (m_PWMPin != 1U) {
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::softPwmWrite(m_PWMPin, m_PWMBright);
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}
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else {
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::pwmWrite(m_PWMPin, (m_PWMBright/100)*1024);
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}
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if (m_pwm) {
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if (m_pwmPin != 1U)
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::softPwmWrite(m_pwmPin, m_pwmBright);
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else
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::pwmWrite(m_pwmPin, (m_pwmBright / 100) * 1024);
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}
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::lcdPosition(m_fd, 0, 0);
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@@ -263,11 +260,11 @@ void CHD44780::writeDStar(const char* my1, const char* my2, const char* your, co
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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if (strcmp(reflector, " ") == 0) {
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if (strcmp(reflector, " ") == 0)
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::sprintf(buffer, "%.8s", your);
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} else {
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else
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::sprintf(buffer, "%.8s<%.8s", your, reflector);
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}
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::lcdPosition(m_fd, 0, 2);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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} else if (m_rows == 4U && m_cols == 20U) {
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@@ -276,20 +273,20 @@ void CHD44780::writeDStar(const char* my1, const char* my2, const char* your, co
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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if (strcmp(reflector, " ") == 0) {
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if (strcmp(reflector, " ") == 0)
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::sprintf(buffer, "%.8s", your);
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} else {
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else
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::sprintf(buffer, "%.8s <- %.8s", your, reflector);
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}
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::lcdPosition(m_fd, 0, 2);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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} else if (m_rows == 2 && m_cols == 40U) {
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char buffer[40U];
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if (strcmp(reflector, " ") == 0) {
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if (strcmp(reflector, " ") == 0)
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::sprintf(buffer, "%s %.8s/%.4s > %.8s", type, my1, my2, your);
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} else {
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else
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::sprintf(buffer, "%s %.8s/%.4s > %.8s via %.8s", type, my1, my2, your, reflector);
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}
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::lcdPosition(m_fd, 0, 1);
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::lcdPrintf(m_fd, "%.*s", m_cols, buffer);
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}
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@@ -299,6 +296,9 @@ void CHD44780::writeDStar(const char* my1, const char* my2, const char* your, co
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void CHD44780::clearDStar()
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{
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#ifdef ADAFRUIT_DISPLAY
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adafruitLCDColour(AC_ICE);
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#endif
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if (m_rows == 2U && m_cols == 16U) {
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::lcdPosition(m_fd, 0, 1);
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@@ -323,23 +323,20 @@ void CHD44780::clearDStar()
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void CHD44780::writeDMR(unsigned int slotNo, const std::string& src, bool group, const std::string& dst, const char* type)
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{
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assert(type != NULL);
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if (!m_dmr) {
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::lcdClear(m_fd);
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(3); //GREEN
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adafruitLCDColour(AC_GREEN);
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#endif
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// WFV
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if (m_PWM == 1U) {
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if (m_PWMPin != 1U) {
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::softPwmWrite(m_PWMPin, m_PWMBright);
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}
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else {
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::pwmWrite(m_PWMPin, (m_PWMBright/100)*1024);
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}
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if (m_pwm) {
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if (m_pwmPin != 1U)
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::softPwmWrite(m_pwmPin, m_pwmBright);
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else
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::pwmWrite(m_pwmPin, (m_pwmBright / 100) * 1024);
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}
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if (m_rows == 2U && m_cols == 16U) {
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@@ -354,6 +351,7 @@ LCDColor(3); //GREEN
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} else if (m_rows == 4U && m_cols == 16U) {
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::lcdPosition(m_fd, 0, 0);
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::lcdPuts(m_fd, "DMR");
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if (slotNo == 1U) {
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::lcdPosition(m_fd, 0, 2);
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::lcdPrintf(m_fd, "2 %.*s", m_cols - 2U, LISTENING);
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@@ -364,6 +362,7 @@ LCDColor(3); //GREEN
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} else if (m_rows == 4U && m_cols == 20U) {
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::lcdPosition(m_fd, 0, 0);
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::lcdPuts(m_fd, "DMR");
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if (slotNo == 1U) {
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::lcdPosition(m_fd, 0, 2);
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::lcdPrintf(m_fd, "2 %.*s", m_cols - 2U, LISTENING);
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@@ -383,9 +382,8 @@ LCDColor(3); //GREEN
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}
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if (m_rows == 2U && m_cols == 16U) {
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(2); //RED
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adafruitLCDColour(AC_RED);
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#endif
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char buffer[16U];
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@@ -399,9 +397,8 @@ LCDColor(2); //RED
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::lcdPrintf(m_fd, "2 %.*s", m_cols - 2U, buffer);
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}
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} else if (m_rows == 4U && m_cols == 16U) {
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(2); //RED
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adafruitLCDColour(AC_RED);
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#endif
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char buffer[16U];
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@@ -415,9 +412,8 @@ LCDColor(2); //RED
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::lcdPrintf(m_fd, "2 %.*s", m_cols - 2U, buffer);
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}
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} else if (m_rows == 4U && m_cols == 20U) {
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(2); //RED
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adafruitLCDColour(AC_RED);
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#endif
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char buffer[20U];
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@@ -431,9 +427,8 @@ LCDColor(2); //RED
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::lcdPrintf(m_fd, "2 %.*s", m_cols - 2U, buffer);
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}
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} else if (m_rows == 2U && m_cols == 40U) {
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(2); //RED
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adafruitLCDColour(AC_RED);
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#endif
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char buffer[40U];
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@@ -453,9 +448,8 @@ LCDColor(2); //RED
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void CHD44780::clearDMR(unsigned int slotNo)
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{
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||||
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#ifdef ADAFRUIT_DISPLAY
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LCDColor(7); //ICE
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adafruitLCDColour(AC_ICE);
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#endif
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||||
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if (m_rows == 2U && m_cols == 16U) {
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@@ -498,16 +492,17 @@ void CHD44780::writeFusion(const char* source, const char* dest)
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assert(source != NULL);
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assert(dest != NULL);
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||||
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||||
#ifdef ADAFRUIT_DISPLAY
|
||||
adafruitLCDColour(AC_RED);
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||||
#endif
|
||||
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::lcdClear(m_fd);
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||||
|
||||
// WFV
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||||
if (m_PWM == 1U) {
|
||||
if (m_PWMPin != 1U) {
|
||||
::softPwmWrite(m_PWMPin, m_PWMBright);
|
||||
}
|
||||
else {
|
||||
::pwmWrite(m_PWMPin, (m_PWMBright/100)*1024);
|
||||
}
|
||||
if (m_pwm) {
|
||||
if (m_pwmPin != 1U)
|
||||
::softPwmWrite(m_pwmPin, m_pwmBright);
|
||||
else
|
||||
::pwmWrite(m_pwmPin, (m_pwmBright / 100) * 1024);
|
||||
}
|
||||
|
||||
::lcdPosition(m_fd, 0, 0);
|
||||
@@ -549,6 +544,10 @@ void CHD44780::writeFusion(const char* source, const char* dest)
|
||||
|
||||
void CHD44780::clearFusion()
|
||||
{
|
||||
#ifdef ADAFRUIT_DISPLAY
|
||||
adafruitLCDColour(AC_ICE);
|
||||
#endif
|
||||
|
||||
if (m_rows == 2U && m_cols == 16U) {
|
||||
::lcdPosition(m_fd, 0, 1);
|
||||
::lcdPrintf(m_fd, "%.*s", m_cols, LISTENING);
|
||||
|
||||
Reference in New Issue
Block a user