BicycleControl/BicycleControl.ino

#include <U8x8lib.h>
#include <Arduino.h>
#include <U8g2lib.h>
#include "Musical.h"
#ifdef U8X8_HAVE_HW_I2C
#include <Wire.h>
#endif

// Software SPI setup:
#define OLED_MOSI  14
#define OLED_CLK   15
#define OLED_DC    16
#define OLED_CS    12
#define OLED_RESET 13

U8X8_SSD1306_128X64_NONAME_4W_SW_SPI screen(OLED_CLK, OLED_MOSI, OLED_CS, OLED_DC, OLED_RESET);

//Global defines
#define BLINKER_DELAY 10000
#define BLINKER_FLASH_ON 500
#define BLINKER_FLASH_OFF 150

//Pin assignments
//Shift register control
#define DS 4
#define STCP 2
#define SHCP 7
#define MR 8
//Shift register pin assignments.
#define LED_blinkerRight 3
#define LED_blinkerLeft 2
#define LED_lampFront 0
#define LED_lampBack 1
//Other pinouts.
#define BUZZER 3
#define LED_indicatorRed 9
#define LED_indicatorGreen 10
#define LED_indicatorBlue 11
//Input pins.
#define INPUT_DELAY 300
#define IN_mode 17
#define IN_left 18
#define IN_right 19

//Global variables
//Shift register buffer.
bool outputBuffer[8] = { 0/*Front lamp*/, 0/*Back lamp*/, 0/*Left blinker*/, 0/*Right blinker*/, 0, 0, 0, 0 };
//-Blinker Variables
bool blinkerRight = 0;
bool blinkerLeft = 0;
unsigned long blinkerRightStart = 0;
unsigned long blinkerLeftStart = 0;
unsigned long blinkerRightLastUpdate = 0;
unsigned long blinkerLeftLastUpdate = 0;
//Input control variables
//Mode control button.
char mode = 0;
bool modePressed = 0;
unsigned long modePressedTime = 0;
//Left option button.
bool leftPressed = 0;
unsigned long leftPressedTime = 0;
//Right option button.
bool rightPressed = 0;
unsigned long rightPressedTime = 0;

/*
* Song file: bpm, followed by notes and a byte representing what division of a note it is.
*/
short mySong[] = {
	120,
	NOTE_D5, E,
	NOTE_E5, E,
	NOTE_F5, Q + E,
	NOTE_F5, E,
	NOTE_F5, E,
	NOTE_G5, E,
	NOTE_A5, Q + E,
	NOTE_A5, E,
	NOTE_A5, E,
	NOTE_C5, E,//10
	NOTE_G5, Q + E,
	NOTE_G5, E,
	NOTE_F5, E,
	NOTE_E5, E,
	NOTE_D5, Q + E,
	NOTE_D5, E,
	NOTE_D5, E,
	NOTE_E5, E,
	NOTE_F5, Q + E,
	NOTE_F5, E,//20
	NOTE_F5, E,
	NOTE_G5, E,
	NOTE_A5, Q + E,
	NOTE_A5, E,
	NOTE_A5, E,
	NOTE_C5, E,
	NOTE_D5, Q + E,
	NOTE_D5, E,
	NOTE_C5, E,
	NOTE_E5, E,//30
	NOTE_D5, Q + E,
	NOTE_D5, E,
	NOTE_D5, E,
	NOTE_E5, E,
	NOTE_F5, Q,
	NOTE_E5, E,
	NOTE_E5, E,
	NOTE_D5, Q,
	NOTE_C5, Q,
	NOTE_B5, E,//40
	NOTE_B5, E,
	NOTE_A5, Q,
	NOTE_G5, Q + E,
	NOTE_G5, E,
	NOTE_F5, E,
	NOTE_A5, E,
	NOTE_G5, Q + E,
	NOTE_G5, Q,
	NOTE_F5, S,
	NOTE_E5, S,//50
	NOTE_F5, Q,
	NOTE_F5, S,
	NOTE_E5, S,
	NOTE_F5, Q,
	NOTE_F5, S,
	NOTE_E5, S,
	NOTE_G5, E,
	NOTE_F5, E,
	NOTE_E5, E,
	NOTE_D5, Q,//60
	NOTE_D5, S,
	NOTE_C5, S,
	NOTE_D5, Q,
	NOTE_D5, S,
	NOTE_C5, S,
	NOTE_D5, Q,
	NOTE_C5, S,
	NOTE_D5, S,
	NOTE_E5, E,
	NOTE_F5, E,//70
	NOTE_C5, E,
	NOTE_D5, Q,
	NOTE_D5, S,
	NOTE_E5, S,
	NOTE_F5, Q,
	NOTE_F5, S,
	NOTE_G5, S,
	NOTE_A5, Q,
	NOTE_E5, S,
	NOTE_F5, S,//80
	NOTE_G5, E,
	NOTE_F5, E,
	NOTE_E5, E,
	NOTE_D5, Q,
	NOTE_D5, S,
	NOTE_C5, S,
	NOTE_D5, Q,
	NOTE_D5, S,
	NOTE_C5, S,
	NOTE_D5, Q,//90
	NOTE_C5, S,
	NOTE_D5, S,
	NOTE_E5, E,
	NOTE_F5, E,
	NOTE_C5, E,
	NOTE_D5, Q + E,
	NOTE_D5, Q,
	NOTE_REST, E,
	NOTE_D5, Q,
	NOTE_REST, E,//100
	NOTE_D5, Q,
	NOTE_REST, E,
	NOTE_D5, Q,
	NOTE_REST, E
};

const short beep1[] = {
	100,
	NOTE_A4, Q,
	NOTE_E7, Q,
	NOTE_C2, Q
};

//-------------------|
//GRAPHICS FUNCTIONS:|
//-------------------|

//Shortcut for writing text to the screen.
void writeText(const char* text, int x, int y) {
	screen.setCursor(x, y);
	screen.print(text);
}

//Draws the template of the main screen onto the display.
void drawMainScreen() {
	screen.clear();
	screen.setInverseFont(0);
	screen.setFont(u8x8_font_amstrad_cpc_extended_f);
	writeText("Bicycle Control", 0, 0);
	screen.setFont(u8x8_font_artossans8_r);
	writeText("+-+-+-+-+------+", 0, 1);
	writeText("|L|R|F|B|Mode:0|", 0, 2);
	writeText("+-+-+-+-+------+", 0, 3);
}

//Draws the blinker indicators to the screen.
void drawBlinkerStatus() {
	screen.setFont(u8x8_font_artossans8_r);
	screen.setInverseFont(blinkerLeft);
	writeText("L", 1, 2);
	screen.setInverseFont(blinkerRight);
	writeText("R", 3, 2);
}

//Draws the front lamp indicator.
void drawFrontLampStatus() {
	screen.setFont(u8x8_font_artossans8_r);
	screen.setInverseFont(outputBuffer[LED_lampFront]);
	writeText("F", 5, 2);
}

//Draws the back lamp indicator.
void drawBackLampStatus() {
	screen.setFont(u8x8_font_artossans8_r);
	screen.setInverseFont(outputBuffer[LED_lampBack]);
	writeText("B", 7, 2);
}

//Draws the current mode number on the screen.
void drawModeStatus() {
	screen.setFont(u8x8_font_artossans8_r);
	screen.setInverseFont(0);
	screen.setCursor(14, 2);
	screen.print((int)mode);
}

//-------------------|
//STARTUP FUNCTIONS: |
//-------------------|

//Initialize the OLED screen.
void startupScreen() {
	screen.begin();
	screen.setFont(u8x8_font_amstrad_cpc_extended_r);
}

//Initialize peripherals.
void startupPeripherals() {
	//Shift register outputs.
	pinMode(DS, OUTPUT);
	pinMode(STCP, OUTPUT);
	pinMode(SHCP, OUTPUT);
	pinMode(MR, OUTPUT);
	digitalWrite(MR, HIGH);
	//Other outputs.
	pinMode(BUZZER, OUTPUT);
	pinMode(LED_indicatorRed, OUTPUT);
	pinMode(LED_indicatorGreen, OUTPUT);
	pinMode(LED_indicatorBlue, OUTPUT);
	//Inputs.
	pinMode(IN_mode, INPUT);
	pinMode(IN_left, INPUT);
	pinMode(IN_right, INPUT);
}

//-------------------|
//UPDATE FUNCTIONS:  |
//-------------------|

//Updates the display with blinker status.
void updateBlinkerStatus() {
	bool needsRefresh = 0;
	unsigned long currentTime = millis();
	//Check if the blinkers must shut off.
	if (blinkerLeft) {
		//Check if we should try blinking the light.
		if (currentTime - blinkerLeftStart < BLINKER_DELAY) {
			if (outputBuffer[LED_blinkerLeft]) {
				//Test if the blinker needs to be flashed off.
				if (currentTime - blinkerLeftLastUpdate > BLINKER_FLASH_ON) {
					setPin(LED_blinkerLeft, 0);
					blinkerLeftLastUpdate = currentTime;
				}
			}
			else {
				//Test if the blinker needs to be flashed on.
				if (currentTime - blinkerLeftLastUpdate > BLINKER_FLASH_OFF) {
					setPin(LED_blinkerLeft, 1);
					blinkerLeftLastUpdate = currentTime;
				}
			}
		}
		else {
			//Try to shut down the blinker.
			setPin(LED_blinkerLeft, 0);
			blinkerLeft = 0;
			needsRefresh = 1;
		}
	}
	if (blinkerRight) {
		//Check if we should try blinking the light.
		if (currentTime - blinkerRightStart < BLINKER_DELAY) {
			if (outputBuffer[LED_blinkerRight]) {
				//Test if the blinker needs to be flashed off.
				if (currentTime - blinkerRightLastUpdate > BLINKER_FLASH_ON) {
					setPin(LED_blinkerRight, 0);
					blinkerRightLastUpdate = currentTime;
				}
			}
			else {
				//Test if the blinker needs to be flashed on.
				if (currentTime - blinkerRightLastUpdate > BLINKER_FLASH_OFF) {
					setPin(LED_blinkerRight, 1);
					blinkerRightLastUpdate = currentTime;
				}
			}
		}
		else {
			//Try to shut down the blinker.
			setPin(LED_blinkerRight, 0);
			blinkerRight = 0;
			needsRefresh = 1;
		}
	}
	//Only if a change has been made, update the display.
	if (needsRefresh) drawBlinkerStatus();
}

//Checks for user button presses, and processes input.
void updateInputs() {
	unsigned long currentTime = millis();
	if (!modePressed && digitalRead(IN_mode)) {
		//Mode button was pressed.
		modePressed = 1;
		modePressedTime = currentTime;
		if (mode == 0) {
			mode = 1;
		}
		else {
			mode = 0;
		}
		drawModeStatus();
		//Serial.println("Mode pressed.");
	}
	if (!leftPressed && digitalRead(IN_left)) {
		//Left button was pressed.
		leftPressed = 1;
		leftPressedTime = currentTime;
		switch (mode) {
		case 0:
			setFrontLamp(!outputBuffer[LED_lampFront]);
			break;
		case 1:
			if (!blinkerLeft) activateBlinker(0);
			break;
		}
		//Serial.println("Left pressed.");
	}
	if (!rightPressed && digitalRead(IN_right)) {
		//Right button was pressed.
		rightPressed = 1;
		rightPressedTime = currentTime;
		switch (mode) {
		case 0:
			setBackLamp(!outputBuffer[LED_lampBack]);
			break;
		case 1:
			if (!blinkerRight) activateBlinker(1);
			break;
		}
		//Serial.println("Right pressed.");
	}
	//Remove restrictions on time delays.
	if (currentTime - modePressedTime > INPUT_DELAY) {
		modePressed = 0;
	}
	if (currentTime - leftPressedTime > INPUT_DELAY) {
		leftPressed = 0;
	}
	if (currentTime - rightPressedTime > INPUT_DELAY) {
		rightPressed = 0;
	}
}

//Updates all modules.
void updateAll() {
	updateBlinkerStatus();
	updateInputs();
}

//-------------------|
//STATE CHANGE FUNC: |
//-------------------|

//Loads 8 bits into the register.
void loadRegister(bool values[8]) {
	for (int i = 7; i >= 0; --i) {
		digitalWrite(DS, values[i]);
		digitalWrite(SHCP, HIGH);
		delayMicroseconds(1);
		digitalWrite(SHCP, LOW);
	}
	digitalWrite(STCP, HIGH);
	delayMicroseconds(1);
	digitalWrite(STCP, LOW);
}

//Sets a pin on the register and reloads the bits.
void setPin(byte index, bool value) {
	outputBuffer[index] = value;
	loadRegister(outputBuffer);
}

//Activates a blinker for BLINK_DELAY milliseconds, until it is shut off by the updateBlinkStatus. 0 = Left, 1 = Right
void activateBlinker(bool side) {
	unsigned long currentTime = millis();
	if (side) {
		setPin(LED_blinkerRight, 1);
		blinkerRight = 1;
		blinkerRightStart = currentTime;
		blinkerRightLastUpdate = currentTime;
		Serial.println("Activated Right blinker.");
	}
	else {
		setPin(LED_blinkerLeft, 1);
		blinkerLeft = 1;
		blinkerLeftStart = currentTime;
		blinkerLeftLastUpdate = currentTime;
		Serial.println("Activated Left blinker.");
	}
	drawBlinkerStatus();
}

//Controls the front lamp.
void setFrontLamp(bool value) {
	setPin(LED_lampFront, value);
	drawFrontLampStatus();
}

//Controls the back lamp.
void setBackLamp(bool value) {
	setPin(LED_lampBack, value);
	drawBackLampStatus();
}

//Sets the color of the indicator LED.
void setIndicatorColor(byte red, byte green, byte blue) {
	analogWrite(LED_indicatorRed, red);
	analogWrite(LED_indicatorGreen, green);
	analogWrite(LED_indicatorBlue, blue);
}

//-------------------|
//ERROR CHECKING:    |
//-------------------|

void testOutput(short pinNumber, const char* name) {
	screen.clear();
	writeText(name, 0, 0);
	digitalWrite(pinNumber, HIGH);
	delay(500);
	digitalWrite(pinNumber, LOW);
}

//Visually tests each output.
void testOutputs() {
	screen.clear();
	writeText("Outputs test...", 0, 0);
	delay(1000);
	testOutput(LED_blinkerLeft, "Left blinker");
	testOutput(LED_blinkerRight, "Right blinker");
	testOutput(BUZZER, "Sound");
	testOutput(LED_indicatorRed, "Indic. Red");
	testOutput(LED_indicatorGreen, "Indic. Green");
	testOutput(LED_indicatorBlue, "Indic. Blue");
	testOutput(LED_lampFront, "Front lamp");
	testOutput(LED_lampBack, "Back lamp");
}

//-------------------|
//ARDUINO RUNTIME:   |
//-------------------|

void setup() {
	Serial.begin(9600);
	//Startup all the pins.
	startupPeripherals();
	startupScreen();
	drawMainScreen();
	updateAll();
	Musical::setBuzzerPin(BUZZER);
	Musical::playSequence(mySong, 104);
}

void loop() {
	updateBlinkerStatus();
	updateInputs();
	Musical::update();
}
Add project files. 2017-02-17 08:07:59 +00:00			`#include <U8x8lib.h>`
			`#include <Arduino.h>`
			`#include <U8g2lib.h>`
			`#include "Musical.h"`
			`#ifdef U8X8_HAVE_HW_I2C`
			`#include <Wire.h>`
			`#endif`

			`// Software SPI setup:`
			`#define OLED_MOSI 14`
			`#define OLED_CLK 15`
			`#define OLED_DC 16`
			`#define OLED_CS 12`
			`#define OLED_RESET 13`

			`U8X8_SSD1306_128X64_NONAME_4W_SW_SPI screen(OLED_CLK, OLED_MOSI, OLED_CS, OLED_DC, OLED_RESET);`

			`//Global defines`
			`#define BLINKER_DELAY 10000`
			`#define BLINKER_FLASH_ON 500`
			`#define BLINKER_FLASH_OFF 150`

			`//Pin assignments`
			`//Shift register control`
			`#define DS 4`
			`#define STCP 2`
			`#define SHCP 7`
			`#define MR 8`
			`//Shift register pin assignments.`
			`#define LED_blinkerRight 3`
			`#define LED_blinkerLeft 2`
			`#define LED_lampFront 0`
			`#define LED_lampBack 1`
			`//Other pinouts.`
			`#define BUZZER 3`
			`#define LED_indicatorRed 9`
			`#define LED_indicatorGreen 10`
			`#define LED_indicatorBlue 11`
			`//Input pins.`
			`#define INPUT_DELAY 300`
			`#define IN_mode 17`
			`#define IN_left 18`
			`#define IN_right 19`

			`//Global variables`
			`//Shift register buffer.`
			`bool outputBuffer[8] = { 0/Front lamp/, 0/Back lamp/, 0/Left blinker/, 0/Right blinker/, 0, 0, 0, 0 };`
			`//-Blinker Variables`
			`bool blinkerRight = 0;`
			`bool blinkerLeft = 0;`
			`unsigned long blinkerRightStart = 0;`
			`unsigned long blinkerLeftStart = 0;`
			`unsigned long blinkerRightLastUpdate = 0;`
			`unsigned long blinkerLeftLastUpdate = 0;`
			`//Input control variables`
			`//Mode control button.`
			`char mode = 0;`
			`bool modePressed = 0;`
			`unsigned long modePressedTime = 0;`
			`//Left option button.`
			`bool leftPressed = 0;`
			`unsigned long leftPressedTime = 0;`
			`//Right option button.`
			`bool rightPressed = 0;`
			`unsigned long rightPressedTime = 0;`
Adding BicycleControl.ino, and the Musical Class. 2017-02-17 08:42:26 +00:00
			`/*`
			`* Song file: bpm, followed by notes and a byte representing what division of a note it is.`
			`*/`
			`short mySong[] = {`
			`120,`
			`NOTE_D5, E,`
			`NOTE_E5, E,`
			`NOTE_F5, Q + E,`
			`NOTE_F5, E,`
			`NOTE_F5, E,`
			`NOTE_G5, E,`
			`NOTE_A5, Q + E,`
			`NOTE_A5, E,`
			`NOTE_A5, E,`
			`NOTE_C5, E,//10`
			`NOTE_G5, Q + E,`
			`NOTE_G5, E,`
			`NOTE_F5, E,`
			`NOTE_E5, E,`
			`NOTE_D5, Q + E,`
			`NOTE_D5, E,`
			`NOTE_D5, E,`
			`NOTE_E5, E,`
			`NOTE_F5, Q + E,`
			`NOTE_F5, E,//20`
			`NOTE_F5, E,`
			`NOTE_G5, E,`
			`NOTE_A5, Q + E,`
			`NOTE_A5, E,`
			`NOTE_A5, E,`
			`NOTE_C5, E,`
			`NOTE_D5, Q + E,`
			`NOTE_D5, E,`
			`NOTE_C5, E,`
			`NOTE_E5, E,//30`
			`NOTE_D5, Q + E,`
			`NOTE_D5, E,`
			`NOTE_D5, E,`
			`NOTE_E5, E,`
			`NOTE_F5, Q,`
			`NOTE_E5, E,`
			`NOTE_E5, E,`
			`NOTE_D5, Q,`
			`NOTE_C5, Q,`
			`NOTE_B5, E,//40`
			`NOTE_B5, E,`
			`NOTE_A5, Q,`
			`NOTE_G5, Q + E,`
			`NOTE_G5, E,`
			`NOTE_F5, E,`
			`NOTE_A5, E,`
			`NOTE_G5, Q + E,`
			`NOTE_G5, Q,`
			`NOTE_F5, S,`
			`NOTE_E5, S,//50`
			`NOTE_F5, Q,`
			`NOTE_F5, S,`
			`NOTE_E5, S,`
			`NOTE_F5, Q,`
			`NOTE_F5, S,`
			`NOTE_E5, S,`
			`NOTE_G5, E,`
			`NOTE_F5, E,`
			`NOTE_E5, E,`
			`NOTE_D5, Q,//60`
			`NOTE_D5, S,`
			`NOTE_C5, S,`
			`NOTE_D5, Q,`
			`NOTE_D5, S,`
			`NOTE_C5, S,`
			`NOTE_D5, Q,`
			`NOTE_C5, S,`
			`NOTE_D5, S,`
			`NOTE_E5, E,`
			`NOTE_F5, E,//70`
			`NOTE_C5, E,`
			`NOTE_D5, Q,`
			`NOTE_D5, S,`
			`NOTE_E5, S,`
			`NOTE_F5, Q,`
			`NOTE_F5, S,`
			`NOTE_G5, S,`
			`NOTE_A5, Q,`
			`NOTE_E5, S,`
			`NOTE_F5, S,//80`
			`NOTE_G5, E,`
			`NOTE_F5, E,`
			`NOTE_E5, E,`
			`NOTE_D5, Q,`
			`NOTE_D5, S,`
			`NOTE_C5, S,`
			`NOTE_D5, Q,`
			`NOTE_D5, S,`
			`NOTE_C5, S,`
			`NOTE_D5, Q,//90`
			`NOTE_C5, S,`
			`NOTE_D5, S,`
			`NOTE_E5, E,`
			`NOTE_F5, E,`
			`NOTE_C5, E,`
			`NOTE_D5, Q + E,`
			`NOTE_D5, Q,`
			`NOTE_REST, E,`
			`NOTE_D5, Q,`
			`NOTE_REST, E,//100`
			`NOTE_D5, Q,`
			`NOTE_REST, E,`
			`NOTE_D5, Q,`
			`NOTE_REST, E`
			`};`
Add project files. 2017-02-17 08:07:59 +00:00
			`const short beep1[] = {`
			`100,`
			`NOTE_A4, Q,`
			`NOTE_E7, Q,`
			`NOTE_C2, Q`
			`};`

			`//-------------------\|`
			`//GRAPHICS FUNCTIONS:\|`
			`//-------------------\|`

			`//Shortcut for writing text to the screen.`
			`void writeText(const char* text, int x, int y) {`
			`screen.setCursor(x, y);`
			`screen.print(text);`
			`}`

			`//Draws the template of the main screen onto the display.`
			`void drawMainScreen() {`
			`screen.clear();`
			`screen.setInverseFont(0);`
			`screen.setFont(u8x8_font_amstrad_cpc_extended_f);`
			`writeText("Bicycle Control", 0, 0);`
			`screen.setFont(u8x8_font_artossans8_r);`
			`writeText("+-+-+-+-+------+", 0, 1);`
			`writeText("\|L\|R\|F\|B\|Mode:0\|", 0, 2);`
			`writeText("+-+-+-+-+------+", 0, 3);`
			`}`

			`//Draws the blinker indicators to the screen.`
			`void drawBlinkerStatus() {`
			`screen.setFont(u8x8_font_artossans8_r);`
			`screen.setInverseFont(blinkerLeft);`
			`writeText("L", 1, 2);`
			`screen.setInverseFont(blinkerRight);`
			`writeText("R", 3, 2);`
			`}`

			`//Draws the front lamp indicator.`
			`void drawFrontLampStatus() {`
			`screen.setFont(u8x8_font_artossans8_r);`
			`screen.setInverseFont(outputBuffer[LED_lampFront]);`
			`writeText("F", 5, 2);`
			`}`

			`//Draws the back lamp indicator.`
			`void drawBackLampStatus() {`
			`screen.setFont(u8x8_font_artossans8_r);`
			`screen.setInverseFont(outputBuffer[LED_lampBack]);`
			`writeText("B", 7, 2);`
			`}`

			`//Draws the current mode number on the screen.`
			`void drawModeStatus() {`
			`screen.setFont(u8x8_font_artossans8_r);`
			`screen.setInverseFont(0);`
			`screen.setCursor(14, 2);`
			`screen.print((int)mode);`
			`}`

			`//-------------------\|`
			`//STARTUP FUNCTIONS: \|`
			`//-------------------\|`

			`//Initialize the OLED screen.`
			`void startupScreen() {`
			`screen.begin();`
			`screen.setFont(u8x8_font_amstrad_cpc_extended_r);`
			`}`

			`//Initialize peripherals.`
			`void startupPeripherals() {`
			`//Shift register outputs.`
			`pinMode(DS, OUTPUT);`
			`pinMode(STCP, OUTPUT);`
			`pinMode(SHCP, OUTPUT);`
			`pinMode(MR, OUTPUT);`
			`digitalWrite(MR, HIGH);`
			`//Other outputs.`
			`pinMode(BUZZER, OUTPUT);`
			`pinMode(LED_indicatorRed, OUTPUT);`
			`pinMode(LED_indicatorGreen, OUTPUT);`
			`pinMode(LED_indicatorBlue, OUTPUT);`
			`//Inputs.`
			`pinMode(IN_mode, INPUT);`
			`pinMode(IN_left, INPUT);`
			`pinMode(IN_right, INPUT);`
			`}`

			`//-------------------\|`
			`//UPDATE FUNCTIONS: \|`
			`//-------------------\|`

			`//Updates the display with blinker status.`
			`void updateBlinkerStatus() {`
			`bool needsRefresh = 0;`
			`unsigned long currentTime = millis();`
			`//Check if the blinkers must shut off.`
			`if (blinkerLeft) {`
			`//Check if we should try blinking the light.`
			`if (currentTime - blinkerLeftStart < BLINKER_DELAY) {`
			`if (outputBuffer[LED_blinkerLeft]) {`
			`//Test if the blinker needs to be flashed off.`
			`if (currentTime - blinkerLeftLastUpdate > BLINKER_FLASH_ON) {`
			`setPin(LED_blinkerLeft, 0);`
			`blinkerLeftLastUpdate = currentTime;`
			`}`
			`}`
			`else {`
			`//Test if the blinker needs to be flashed on.`
			`if (currentTime - blinkerLeftLastUpdate > BLINKER_FLASH_OFF) {`
			`setPin(LED_blinkerLeft, 1);`
			`blinkerLeftLastUpdate = currentTime;`
			`}`
			`}`
			`}`
			`else {`
			`//Try to shut down the blinker.`
			`setPin(LED_blinkerLeft, 0);`
			`blinkerLeft = 0;`
			`needsRefresh = 1;`
			`}`
			`}`
			`if (blinkerRight) {`
			`//Check if we should try blinking the light.`
			`if (currentTime - blinkerRightStart < BLINKER_DELAY) {`
			`if (outputBuffer[LED_blinkerRight]) {`
			`//Test if the blinker needs to be flashed off.`
			`if (currentTime - blinkerRightLastUpdate > BLINKER_FLASH_ON) {`
			`setPin(LED_blinkerRight, 0);`
			`blinkerRightLastUpdate = currentTime;`
			`}`
			`}`
			`else {`
			`//Test if the blinker needs to be flashed on.`
			`if (currentTime - blinkerRightLastUpdate > BLINKER_FLASH_OFF) {`
			`setPin(LED_blinkerRight, 1);`
			`blinkerRightLastUpdate = currentTime;`
			`}`
			`}`
			`}`
			`else {`
			`//Try to shut down the blinker.`
			`setPin(LED_blinkerRight, 0);`
			`blinkerRight = 0;`
			`needsRefresh = 1;`
			`}`
			`}`
			`//Only if a change has been made, update the display.`
			`if (needsRefresh) drawBlinkerStatus();`
			`}`

			`//Checks for user button presses, and processes input.`
			`void updateInputs() {`
			`unsigned long currentTime = millis();`
			`if (!modePressed && digitalRead(IN_mode)) {`
			`//Mode button was pressed.`
			`modePressed = 1;`
			`modePressedTime = currentTime;`
			`if (mode == 0) {`
			`mode = 1;`
			`}`
			`else {`
			`mode = 0;`
			`}`
			`drawModeStatus();`
			`//Serial.println("Mode pressed.");`
			`}`
			`if (!leftPressed && digitalRead(IN_left)) {`
			`//Left button was pressed.`
			`leftPressed = 1;`
			`leftPressedTime = currentTime;`
			`switch (mode) {`
			`case 0:`
			`setFrontLamp(!outputBuffer[LED_lampFront]);`
			`break;`
			`case 1:`
			`if (!blinkerLeft) activateBlinker(0);`
			`break;`
			`}`
			`//Serial.println("Left pressed.");`
			`}`
			`if (!rightPressed && digitalRead(IN_right)) {`
			`//Right button was pressed.`
			`rightPressed = 1;`
			`rightPressedTime = currentTime;`
			`switch (mode) {`
			`case 0:`
			`setBackLamp(!outputBuffer[LED_lampBack]);`
			`break;`
			`case 1:`
			`if (!blinkerRight) activateBlinker(1);`
			`break;`
			`}`
			`//Serial.println("Right pressed.");`
			`}`
			`//Remove restrictions on time delays.`
			`if (currentTime - modePressedTime > INPUT_DELAY) {`
			`modePressed = 0;`
			`}`
			`if (currentTime - leftPressedTime > INPUT_DELAY) {`
			`leftPressed = 0;`
			`}`
			`if (currentTime - rightPressedTime > INPUT_DELAY) {`
			`rightPressed = 0;`
			`}`
			`}`

			`//Updates all modules.`
			`void updateAll() {`
			`updateBlinkerStatus();`
			`updateInputs();`
			`}`

			`//-------------------\|`
			`//STATE CHANGE FUNC: \|`
			`//-------------------\|`

			`//Loads 8 bits into the register.`
			`void loadRegister(bool values[8]) {`
			`for (int i = 7; i >= 0; --i) {`
			`digitalWrite(DS, values[i]);`
			`digitalWrite(SHCP, HIGH);`
			`delayMicroseconds(1);`
			`digitalWrite(SHCP, LOW);`
			`}`
			`digitalWrite(STCP, HIGH);`
			`delayMicroseconds(1);`
			`digitalWrite(STCP, LOW);`
			`}`

			`//Sets a pin on the register and reloads the bits.`
			`void setPin(byte index, bool value) {`
			`outputBuffer[index] = value;`
			`loadRegister(outputBuffer);`
			`}`

			`//Activates a blinker for BLINK_DELAY milliseconds, until it is shut off by the updateBlinkStatus. 0 = Left, 1 = Right`
			`void activateBlinker(bool side) {`
			`unsigned long currentTime = millis();`
			`if (side) {`
			`setPin(LED_blinkerRight, 1);`
			`blinkerRight = 1;`
			`blinkerRightStart = currentTime;`
			`blinkerRightLastUpdate = currentTime;`
			`Serial.println("Activated Right blinker.");`
			`}`
			`else {`
			`setPin(LED_blinkerLeft, 1);`
			`blinkerLeft = 1;`
			`blinkerLeftStart = currentTime;`
			`blinkerLeftLastUpdate = currentTime;`
			`Serial.println("Activated Left blinker.");`
			`}`
			`drawBlinkerStatus();`
			`}`

			`//Controls the front lamp.`
			`void setFrontLamp(bool value) {`
			`setPin(LED_lampFront, value);`
			`drawFrontLampStatus();`
			`}`

			`//Controls the back lamp.`
			`void setBackLamp(bool value) {`
			`setPin(LED_lampBack, value);`
			`drawBackLampStatus();`
			`}`

			`//Sets the color of the indicator LED.`
			`void setIndicatorColor(byte red, byte green, byte blue) {`
			`analogWrite(LED_indicatorRed, red);`
			`analogWrite(LED_indicatorGreen, green);`
			`analogWrite(LED_indicatorBlue, blue);`
			`}`

			`//-------------------\|`
			`//ERROR CHECKING: \|`
			`//-------------------\|`

			`void testOutput(short pinNumber, const char* name) {`
			`screen.clear();`
			`writeText(name, 0, 0);`
			`digitalWrite(pinNumber, HIGH);`
			`delay(500);`
			`digitalWrite(pinNumber, LOW);`
			`}`

			`//Visually tests each output.`
			`void testOutputs() {`
			`screen.clear();`
			`writeText("Outputs test...", 0, 0);`
			`delay(1000);`
			`testOutput(LED_blinkerLeft, "Left blinker");`
			`testOutput(LED_blinkerRight, "Right blinker");`
			`testOutput(BUZZER, "Sound");`
			`testOutput(LED_indicatorRed, "Indic. Red");`
			`testOutput(LED_indicatorGreen, "Indic. Green");`
			`testOutput(LED_indicatorBlue, "Indic. Blue");`
			`testOutput(LED_lampFront, "Front lamp");`
			`testOutput(LED_lampBack, "Back lamp");`
			`}`

			`//-------------------\|`
			`//ARDUINO RUNTIME: \|`
			`//-------------------\|`

			`void setup() {`
			`Serial.begin(9600);`
			`//Startup all the pins.`
			`startupPeripherals();`
			`startupScreen();`
			`drawMainScreen();`
			`updateAll();`
Adding BicycleControl.ino, and the Musical Class. 2017-02-17 08:42:26 +00:00			`Musical::setBuzzerPin(BUZZER);`
			`Musical::playSequence(mySong, 104);`
Add project files. 2017-02-17 08:07:59 +00:00			`}`

			`void loop() {`
			`updateBlinkerStatus();`
			`updateInputs();`
Adding BicycleControl.ino, and the Musical Class. 2017-02-17 08:42:26 +00:00			`Musical::update();`
Add project files. 2017-02-17 08:07:59 +00:00			`}`