lab 4 2 bottom fix
const int BLED=9; //Blue LED on Pin 9
const int GLED=10; //Green LED on Pin 10
const int RLED=11; //Red LED on Pin 11
const int BUTTON=2;
const int BUTTON1=3;//The Button is connected to pin 2
boolean lastButton = LOW; //Last Button State
boolean lastButton1 = LOW;
boolean currentButton = LOW; //Current Button State
boolean currentButton1 = LOW;
int ledMode = 0;
int ledMode1 = 0;//Cycle between LED states
void setup()
{
pinMode (BLED, OUTPUT); //Set Blue LED as Output
pinMode (GLED, OUTPUT); //Set Green LED as Output
pinMode (RLED, OUTPUT); //Set Red LED as Output
pinMode (BUTTON, INPUT);
pinMode (BUTTON1, INPUT); //Set button as input (not required)
}
/*
* Debouncing Function Pass it the previous button state,
* and get back the current debounced button state.
*/
boolean debounce(boolean last)
{
boolean current = digitalRead(BUTTON); //Read the button state
if (last != current) //if it's different...
{
delay(5); //wait 5ms
current = digitalRead(BUTTON); //read it again
}
return current; //return the current value
}
boolean bounce(boolean on)
{
boolean current1 = digitalRead(BUTTON1); //Read the button state
if (on != current1) //if it's different...
{
delay(5); //wait 5ms
current1 = digitalRead(BUTTON1); //read it again
}
return current1; //return the current value
}
/*
* LED Mode Selection Pass a number for the LED state and set it accordingly.
*/
void setMode(int no)
{ switch(no)
{case 1: //RED
digitalWrite(RLED, HIGH);
digitalWrite(GLED, LOW);
digitalWrite(BLED, LOW);
break;
case 2: //GREEN
digitalWrite(RLED, LOW);
digitalWrite(GLED, HIGH);
digitalWrite(BLED, LOW);
break;
case 3: //blue
digitalWrite(RLED, LOW);
digitalWrite(GLED, LOW);
digitalWrite(BLED, HIGH);
break;
case 4: //PURPLE (RED+BLUE)
analogWrite(RLED, 230);
analogWrite(GLED, 0);
analogWrite(BLED, 255);
break;
case 5: //TEAL (light greeen)
analogWrite(RLED, 200);
analogWrite(GLED, 200);
analogWrite(BLED, 0);
break;
case 6: //ORANGe (RED+BLUE)
analogWrite(RLED, 250);
analogWrite(GLED, 10);
analogWrite(BLED, LOW);
break;
case 7: //WHITE
analogWrite(RLED, 255);
analogWrite(GLED, 255);
analogWrite(BLED, 180);
break;
//OFF (no = 0)
default: //OFF (mode = 0)
digitalWrite(RLED, LOW);
digitalWrite(GLED, LOW);
digitalWrite(BLED, LOW);
break;
}}
void setMode1(int no)
{switch(no)
{case 1: //RED
digitalWrite(RLED, HIGH);
digitalWrite(GLED, LOW);
digitalWrite(BLED, LOW);
break;
case 2: //GREEN
digitalWrite(RLED, LOW);
digitalWrite(GLED, HIGH);
digitalWrite(BLED, LOW);
break;
case 3: //blue
digitalWrite(RLED, LOW);
digitalWrite(GLED, LOW);
digitalWrite(BLED, HIGH);
break;
//OFF (no = 0)
default: //OFF (mode = 0)
digitalWrite(RLED, LOW);
digitalWrite(GLED, LOW);
digitalWrite(BLED, LOW);
break;
}}
void loop()
{
currentButton = debounce(lastButton); //read debounced state
if (lastButton == LOW && currentButton == HIGH) //if it was pressed...
{
ledMode++; //increment the LED value
}
lastButton = currentButton; //reset button value
//if you've cycled through the different options,
//reset the counter to 0
if (ledMode == 8) ledMode = 0;
setMode(ledMode); //change the LED state
currentButton1 = bounce(lastButton1);//read debounced state
if (lastButton1 == LOW && currentButton1 == HIGH) //if it was pressed...
{
ledMode1++; //increment the LED value
}
lastButton1 = currentButton1; //reset button value
//if you've cycled through the different options,
//reset the counter to 0
if (ledMode1 == 4) ledMode1 = 0;
setMode1(ledMode1); //change the LED state
}
const int BLED=9; //Blue LED on Pin 9
const int GLED=10; //Green LED on Pin 10
const int RLED=11; //Red LED on Pin 11
const int BUTTON=2;
const int BUTTON1=3;//The Button is connected to pin 2
boolean lastButton = LOW; //Last Button State
boolean lastButton1 = LOW;
boolean currentButton = LOW; //Current Button State
boolean currentButton1 = LOW;
int ledMode = 0;
int ledMode1 = 0;//Cycle between LED states
void setup()
{
pinMode (BLED, OUTPUT); //Set Blue LED as Output
pinMode (GLED, OUTPUT); //Set Green LED as Output
pinMode (RLED, OUTPUT); //Set Red LED as Output
pinMode (BUTTON, INPUT);
pinMode (BUTTON1, INPUT); //Set button as input (not required)
}
/*
* Debouncing Function Pass it the previous button state,
* and get back the current debounced button state.
*/
boolean debounce(boolean last)
{
boolean current = digitalRead(BUTTON); //Read the button state
if (last != current) //if it's different...
{
delay(5); //wait 5ms
current = digitalRead(BUTTON); //read it again
}
return current; //return the current value
}
boolean bounce(boolean on)
{
boolean current1 = digitalRead(BUTTON1); //Read the button state
if (on != current1) //if it's different...
{
delay(5); //wait 5ms
current1 = digitalRead(BUTTON1); //read it again
}
return current1; //return the current value
}
/*
* LED Mode Selection Pass a number for the LED state and set it accordingly.
*/
void setMode(int no)
{ switch(no)
{case 1: //RED
digitalWrite(RLED, HIGH);
digitalWrite(GLED, LOW);
digitalWrite(BLED, LOW);
break;
case 2: //GREEN
digitalWrite(RLED, LOW);
digitalWrite(GLED, HIGH);
digitalWrite(BLED, LOW);
break;
case 3: //blue
digitalWrite(RLED, LOW);
digitalWrite(GLED, LOW);
digitalWrite(BLED, HIGH);
break;
case 4: //PURPLE (RED+BLUE)
analogWrite(RLED, 230);
analogWrite(GLED, 0);
analogWrite(BLED, 255);
break;
case 5: //TEAL (light greeen)
analogWrite(RLED, 200);
analogWrite(GLED, 200);
analogWrite(BLED, 0);
break;
case 6: //ORANGe (RED+BLUE)
analogWrite(RLED, 250);
analogWrite(GLED, 10);
analogWrite(BLED, LOW);
break;
case 7: //WHITE
analogWrite(RLED, 255);
analogWrite(GLED, 255);
analogWrite(BLED, 180);
break;
//OFF (no = 0)
default: //OFF (mode = 0)
digitalWrite(RLED, LOW);
digitalWrite(GLED, LOW);
digitalWrite(BLED, LOW);
break;
}}
void setMode1(int no)
{switch(no)
{case 1: //RED
digitalWrite(RLED, HIGH);
digitalWrite(GLED, LOW);
digitalWrite(BLED, LOW);
break;
case 2: //GREEN
digitalWrite(RLED, LOW);
digitalWrite(GLED, HIGH);
digitalWrite(BLED, LOW);
break;
case 3: //blue
digitalWrite(RLED, LOW);
digitalWrite(GLED, LOW);
digitalWrite(BLED, HIGH);
break;
//OFF (no = 0)
default: //OFF (mode = 0)
digitalWrite(RLED, LOW);
digitalWrite(GLED, LOW);
digitalWrite(BLED, LOW);
break;
}}
void loop()
{
currentButton = debounce(lastButton); //read debounced state
if (lastButton == LOW && currentButton == HIGH) //if it was pressed...
{
ledMode++; //increment the LED value
}
lastButton = currentButton; //reset button value
//if you've cycled through the different options,
//reset the counter to 0
if (ledMode == 8) ledMode = 0;
setMode(ledMode); //change the LED state
currentButton1 = bounce(lastButton1);//read debounced state
if (lastButton1 == LOW && currentButton1 == HIGH) //if it was pressed...
{
ledMode1++; //increment the LED value
}
lastButton1 = currentButton1; //reset button value
//if you've cycled through the different options,
//reset the counter to 0
if (ledMode1 == 4) ledMode1 = 0;
setMode1(ledMode1); //change the LED state
}
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