rschaten/IRlicht
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complete rework of concept

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This commit is contained in:
Ronald Schaten 2014-04-25 01:46:30 +02:00
parent fb95099bd5
commit 9a7069c43f
1 changed files with 109 additions and 31 deletions
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140
source/irlicht.ino
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@ -42,9 +42,15 @@
#define MODE_FADE 0x04
#define MODE_SMOOTH 0x05
int white = 0x01;
int levelRed = 0x00;
int levelGreen = 0x00;
int levelBlue = 0x00;
int levelWhite = 0x01;
int mode = MODE_CONSTANT;
boolean strobe = false;
int modestep = 0;
int animationspeed = 10;
long steplength = 0;
IRrecv irrecv(IR_PIN);
decode_results results;
@ -53,8 +59,8 @@ simtronyx_RGB_LED strip(LED_RED, LED_GREEN, LED_BLUE);
void setup() {
Serial.begin(9600);
pinMode(LED_WHITE, OUTPUT);
analogWrite(LED_WHITE, white);
strip.setRGB(0x00, 0x00, 0x00);
analogWrite(LED_WHITE, levelWhite);
strip.setRGB(levelRed, levelGreen, levelBlue);
irrecv.enableIRIn(); // Start the receiver
}
@ -66,19 +72,59 @@ void loop() {
//if (results.value & IR_MASK == IR_FILTER) {
Serial.println(results.value);
switch (results.value) {
case IR_KEY_1: mode = MODE_CONSTANT; strip.animateStop(); strip.setR(0x00); break;
case IR_KEY_2: mode = MODE_CONSTANT; strip.animateStop(); strip.setG(0x00); break;
case IR_KEY_3: mode = MODE_CONSTANT; strip.animateStop(); strip.setB(0x00); break;
case IR_KEY_4: mode = MODE_CONSTANT; strip.animateStop(); strip.setR(0x80); break;
case IR_KEY_5: mode = MODE_CONSTANT; strip.animateStop(); strip.setG(0x80); break;
case IR_KEY_6: mode = MODE_CONSTANT; strip.animateStop(); strip.setB(0x80); break;
case IR_KEY_7: mode = MODE_CONSTANT; strip.animateStop(); strip.setR(0xFF); break;
case IR_KEY_8: mode = MODE_CONSTANT; strip.animateStop(); strip.setG(0xFF); break;
case IR_KEY_9: mode = MODE_CONSTANT; strip.animateStop(); strip.setB(0xFF); break;
case IR_KEY_STROBE:
mode = MODE_STROBE;
case IR_KEY_1: mode = MODE_CONSTANT; levelRed += 51; if (levelRed > 0xff) { levelRed = 0x00; } break;
case IR_KEY_2: mode = MODE_CONSTANT; levelGreen += 51; if (levelGreen > 0xff) { levelGreen = 0x00; } break;
case IR_KEY_3: mode = MODE_CONSTANT; levelBlue += 51; if (levelBlue > 0xff) { levelBlue = 0x00; } break;
case IR_KEY_4: mode = MODE_CONSTANT; levelRed = levelBlue = levelGreen = levelWhite = 0xff; break;
case IR_KEY_5: mode = MODE_CONSTANT; levelWhite += 51; if (levelWhite > 0xff) { levelWhite = 0x00; } break;
case IR_KEY_6: mode = MODE_CONSTANT; levelRed = levelBlue = levelGreen = levelWhite = 0x00; break;
case IR_KEY_7:
mode = MODE_CONSTANT;
if (levelRed == levelGreen && levelBlue == 0) {
// we have the right color tone, just set brightness
levelRed += 51; if (levelRed > 0xff) { levelRed = 0x00; };
levelGreen += 51; if (levelGreen > 0xff) { levelGreen = 0x00; };
} else {
// select color tone
levelRed = levelGreen = 51;
levelBlue = 0;
}
break;
case IR_KEY_8:
mode = MODE_CONSTANT;
if (levelGreen == levelBlue && levelRed == 0) {
// we have the right color tone, just set brightness
levelGreen += 51; if (levelGreen > 0xff) { levelGreen = 0x00; };
levelBlue += 51; if (levelBlue > 0xff) { levelBlue = 0x00; };
} else {
// select color tone
levelGreen = levelBlue = 51;
levelRed = 0;
}
break;
case IR_KEY_9:
mode = MODE_CONSTANT;
if (levelBlue == levelRed && levelGreen == 0) {
// we have the right color tone, just set brightness
levelBlue += 51; if (levelBlue > 0xff) { levelBlue = 0x00; };
levelRed += 51; if (levelRed > 0xff) { levelRed = 0x00; };
} else {
// select color tone
levelBlue = levelRed = 51;
levelGreen = 0;
}
break;
case IR_KEY_FLASH:
strip.animateStop();
strip.setRGB(0x00, 0x00, 0x00);
mode == MODE_FLASH ? mode = MODE_CONSTANT : mode = MODE_FLASH;
modestep = 0;
steplength = 0;
break;
case IR_KEY_STROBE:
strip.animateStop();
mode == MODE_STROBE ? mode = MODE_CONSTANT : mode = MODE_STROBE;
modestep = 0;
steplength = 0;
break;
case IR_KEY_FADE:
mode = MODE_FADE;
@ -100,18 +146,18 @@ void loop() {
strip.animateStart();
break;
case IR_KEY_DIM:
white -= 0x10;
if (white < 0x00) {
white = 0x00;
levelWhite -= 0x10;
if (levelWhite < 0x00) {
levelWhite = 0x00;
}
analogWrite(LED_WHITE, white);
analogWrite(LED_WHITE, levelWhite);
break;
case IR_KEY_BRIGHT:
white += 0x10;
if (white > 0xFF) {
white = 0xFF;
levelWhite += 0x10;
if (levelWhite > 0xFF) {
levelWhite = 0xFF;
}
analogWrite(LED_WHITE, white);
analogWrite(LED_WHITE, levelWhite);
break;
default:
Serial.print("proto: ");
@ -120,17 +166,49 @@ void loop() {
Serial.println(results.value, HEX);
break;
}
if (mode == MODE_CONSTANT) {
strip.animateStop();
analogWrite(LED_WHITE, levelWhite);
strip.setRGB(levelRed, levelGreen, levelBlue);
}
}
}
irrecv.resume(); // Receive the next value
}
if (mode == MODE_STROBE) {
strobe = !strobe;
if (strobe) {
analogWrite(LED_WHITE, white);
} else {
analogWrite(LED_WHITE, 0x00);
}
switch (mode) {
case MODE_CONSTANT:
// do nothing, it's constant after all...
break;
case MODE_STROBE:
steplength--;
if (steplength <= 0) {
if (modestep == 1) {
modestep = 0;
analogWrite(LED_WHITE, levelWhite);
strip.setRGB(levelRed, levelGreen, levelBlue);
} else {
modestep = 1;
analogWrite(LED_WHITE, 0x00);
strip.setRGB(0x00, 0x00, 0x00);
}
steplength = animationspeed * 10000L;
}
break;
case MODE_FLASH:
steplength--;
if (steplength <= 0) {
switch (modestep) {
case 0: levelRed = 0xff; levelGreen = levelBlue = 0x00; modestep = 1; break;
case 1: levelGreen = 0xff; levelBlue = levelRed = 0x00; modestep = 2; break;
case 2: levelBlue = 0xff; levelRed = levelGreen = 0x00; modestep = 0; break;
}
analogWrite(LED_WHITE, levelWhite);
strip.setRGB(levelRed, levelGreen, levelBlue);
steplength = animationspeed * 10000L;
}
break;
default:
break;
}
}