Ivan Yohuno
/
neopixel_spi
Code to work with NeoPixels
Diff: main.cpp
- Revision:
- 4:64ecb3b6d1c7
- Parent:
- 3:81ab43d7e3a2
diff -r 81ab43d7e3a2 -r 64ecb3b6d1c7 main.cpp --- a/main.cpp Thu Apr 23 18:01:36 2015 +0000 +++ b/main.cpp Fri Apr 24 11:36:37 2015 +0000 @@ -71,11 +71,13 @@ */ //function declarations -void setRGBPixel(int r, int g, int b); //sets colour of one RGB Pixel -void setRGBStrip(int r, int g, int b); //sets colour of a strip of 8 RGB Pixels -void setRGBPixels(int colours[8][3]); //sets sequence of colours for a strip of 8 RGB Pixels -void setRGBFloor1(int colours[2][8][3]); //sets a sequence of colours for 2 strips of 8 RGB Pixels on pin 5 -void setRGBFloor2(int colours[2][8][3]); //sets a sequence of colours for 2 strips of 8 RGB Pixels on pin 11 +//void setRGBPixel(int r, int g, int b); //sets colour of one RGB Pixel +void setRGBStrip1(int r, int g, int b); //sets colour of a strip of 8 RGB Pixels on pin 5 +void setRGBStrip2(int r, int g, int b); //sets colour of a strip of 8 RGB Pixels on pin 11 +void setRGBPixels1(int colours[8][3]); //sets sequence of colours for a strip of 8 RGB Pixels on pin 5 +void setRGBPixels2(int colours[8][3]); //sets sequence of colours for a strip of 8 RGB Pixels on pin 11 +//void setRGBFloor1(int colours[2][8][3]); //sets a sequence of colours for 2 strips of 8 RGB Pixels on pin 5 +//void setRGBFloor2(int colours[2][8][3]); //sets a sequence of colours for 2 strips of 8 RGB Pixels on pin 11 void spi_init(); //initializes SPI pin at correct bit length and bit rate @@ -92,7 +94,7 @@ //use either function } -void setRGBStrip(int r, int g, int b){ +void setRGBStrip1(int r, int g, int b){ int r_array[8]; int g_array[8]; int b_array[8]; @@ -332,6 +334,248 @@ //wait for latch wait_us(60); } + +void setRGBStrip2(int r, int g, int b){ + int r_array[8]; + int g_array[8]; + int b_array[8]; + memcpy(r_array, decimalToBinary(r), sizeof(r_array)); + memcpy(g_array, decimalToBinary(g), sizeof(g_array)); + memcpy(b_array, decimalToBinary(b), sizeof(b_array)); + + //send commands to LED Driver + //initialize spi + spi_init(); + //LED0 + //set green bits + spi2.write(g_array[7]); //set g7 bit + spi2.write(g_array[6]); //set g6 bit + spi2.write(g_array[5]); //set g5 bit + spi2.write(g_array[4]); //set g4 bit + spi2.write(g_array[3]); //set g3 bit + spi2.write(g_array[2]); //set g2 bit + spi2.write(g_array[1]); //set g1 bit + spi2.write(g_array[0]);//set g0 bit + //set red bits + spi2.write(r_array[7]);//set r7 bit + spi2.write(r_array[6]); //set r6 bit + spi2.write(r_array[5]); //set r5 bit + spi2.write(r_array[4]); //set r4 bit + spi2.write(r_array[3]); //set r3 bit + spi2.write(r_array[2]); //set r2 bit + spi2.write(r_array[1]); //set r1 bit + spi2.write(r_array[0]); //set r0 bit + //set blue bits + spi2.write(b_array[7]); //set b7 bit + spi2.write(b_array[6]); //set b6 bit + spi2.write(b_array[5]); //set b5 bit + spi2.write(b_array[4]); //set b4 bit + spi2.write(b_array[3]); //set b3 bit + spi2.write(b_array[2]); //set b2 bit + spi2.write(b_array[1]); //set b1 bit + spi2.write(b_array[0]); //set b0 bit + //LED1 + //set green bits + spi2.write(g_array[7]); //set g7 bit + spi2.write(g_array[6]); //set g6 bit + spi2.write(g_array[5]); //set g5 bit + spi2.write(g_array[4]); //set g4 bit + spi2.write(g_array[3]); //set g3 bit + spi2.write(g_array[2]); //set g2 bit + spi2.write(g_array[1]); //set g1 bit + spi2.write(g_array[0]);//set g0 bit + //set red bits + spi2.write(r_array[7]);//set r7 bit + spi2.write(r_array[6]); //set r6 bit + spi2.write(r_array[5]); //set r5 bit + spi2.write(r_array[4]); //set r4 bit + spi2.write(r_array[3]); //set r3 bit + spi2.write(r_array[2]); //set r2 bit + spi2.write(r_array[1]); //set r1 bit + spi2.write(r_array[0]); //set r0 bit + //set blue bits + spi2.write(b_array[7]); //set b7 bit + spi2.write(b_array[6]); //set b6 bit + spi2.write(b_array[5]); //set b5 bit + spi2.write(b_array[4]); //set b4 bit + spi2.write(b_array[3]); //set b3 bit + spi2.write(b_array[2]); //set b2 bit + spi2.write(b_array[1]); //set b1 bit + spi2.write(b_array[0]); //set b0 bit + //LED2 + //set green bits + spi2.write(g_array[7]); //set g7 bit + spi2.write(g_array[6]); //set g6 bit + spi2.write(g_array[5]); //set g5 bit + spi2.write(g_array[4]); //set g4 bit + spi2.write(g_array[3]); //set g3 bit + spi2.write(g_array[2]); //set g2 bit + spi2.write(g_array[1]); //set g1 bit + spi2.write(g_array[0]);//set g0 bit + //set red bits + spi2.write(r_array[7]);//set r7 bit + spi2.write(r_array[6]); //set r6 bit + spi2.write(r_array[5]); //set r5 bit + spi2.write(r_array[4]); //set r4 bit + spi2.write(r_array[3]); //set r3 bit + spi2.write(r_array[2]); //set r2 bit + spi2.write(r_array[1]); //set r1 bit + spi2.write(r_array[0]); //set r0 bit + //set blue bits + spi2.write(b_array[7]); //set b7 bit + spi2.write(b_array[6]); //set b6 bit + spi2.write(b_array[5]); //set b5 bit + spi2.write(b_array[4]); //set b4 bit + spi2.write(b_array[3]); //set b3 bit + spi2.write(b_array[2]); //set b2 bit + spi2.write(b_array[1]); //set b1 bit + spi2.write(b_array[0]); //set b0 bit + //LED3 + //set green bits + spi2.write(g_array[7]); //set g7 bit + spi2.write(g_array[6]); //set g6 bit + spi2.write(g_array[5]); //set g5 bit + spi2.write(g_array[4]); //set g4 bit + spi2.write(g_array[3]); //set g3 bit + spi2.write(g_array[2]); //set g2 bit + spi2.write(g_array[1]); //set g1 bit + spi2.write(g_array[0]);//set g0 bit + //set red bits + spi2.write(r_array[7]);//set r7 bit + spi2.write(r_array[6]); //set r6 bit + spi2.write(r_array[5]); //set r5 bit + spi2.write(r_array[4]); //set r4 bit + spi2.write(r_array[3]); //set r3 bit + spi2.write(r_array[2]); //set r2 bit + spi2.write(r_array[1]); //set r1 bit + spi2.write(r_array[0]); //set r0 bit + //set blue bits + spi2.write(b_array[7]); //set b7 bit + spi2.write(b_array[6]); //set b6 bit + spi2.write(b_array[5]); //set b5 bit + spi2.write(b_array[4]); //set b4 bit + spi2.write(b_array[3]); //set b3 bit + spi2.write(b_array[2]); //set b2 bit + spi2.write(b_array[1]); //set b1 bit + spi2.write(b_array[0]); //set b0 bit + //LED4 + //set green bits + spi2.write(g_array[7]); //set g7 bit + spi2.write(g_array[6]); //set g6 bit + spi2.write(g_array[5]); //set g5 bit + spi2.write(g_array[4]); //set g4 bit + spi2.write(g_array[3]); //set g3 bit + spi2.write(g_array[2]); //set g2 bit + spi2.write(g_array[1]); //set g1 bit + spi2.write(g_array[0]);//set g0 bit + //set red bits + spi2.write(r_array[7]);//set r7 bit + spi2.write(r_array[6]); //set r6 bit + spi2.write(r_array[5]); //set r5 bit + spi2.write(r_array[4]); //set r4 bit + spi2.write(r_array[3]); //set r3 bit + spi2.write(r_array[2]); //set r2 bit + spi2.write(r_array[1]); //set r1 bit + spi2.write(r_array[0]); //set r0 bit + //set blue bits + spi2.write(b_array[7]); //set b7 bit + spi2.write(b_array[6]); //set b6 bit + spi2.write(b_array[5]); //set b5 bit + spi2.write(b_array[4]); //set b4 bit + spi2.write(b_array[3]); //set b3 bit + spi2.write(b_array[2]); //set b2 bit + spi2.write(b_array[1]); //set b1 bit + spi2.write(b_array[0]); //set b0 bit + //LED5 + //set green bits + spi2.write(g_array[7]); //set g7 bit + spi2.write(g_array[6]); //set g6 bit + spi2.write(g_array[5]); //set g5 bit + spi2.write(g_array[4]); //set g4 bit + spi2.write(g_array[3]); //set g3 bit + spi2.write(g_array[2]); //set g2 bit + spi2.write(g_array[1]); //set g1 bit + spi2.write(g_array[0]);//set g0 bit + //set red bits + spi2.write(r_array[7]);//set r7 bit + spi2.write(r_array[6]); //set r6 bit + spi2.write(r_array[5]); //set r5 bit + spi2.write(r_array[4]); //set r4 bit + spi2.write(r_array[3]); //set r3 bit + spi2.write(r_array[2]); //set r2 bit + spi2.write(r_array[1]); //set r1 bit + spi2.write(r_array[0]); //set r0 bit + //set blue bits + spi2.write(b_array[7]); //set b7 bit + spi2.write(b_array[6]); //set b6 bit + spi2.write(b_array[5]); //set b5 bit + spi2.write(b_array[4]); //set b4 bit + spi2.write(b_array[3]); //set b3 bit + spi2.write(b_array[2]); //set b2 bit + spi2.write(b_array[1]); //set b1 bit + spi2.write(b_array[0]); //set b0 bit + //LED6 + //set green bits + + spi2.write(g_array[7]); //set g7 bit + spi2.write(g_array[6]); //set g6 bit + spi2.write(g_array[5]); //set g5 bit + spi2.write(g_array[4]); //set g4 bit + spi2.write(g_array[3]); //set g3 bit + spi2.write(g_array[2]); //set g2 bit + spi2.write(g_array[1]); //set g1 bit + spi2.write(g_array[0]);//set g0 bit + //set red bits + spi2.write(r_array[7]);//set r7 bit + spi2.write(r_array[6]); //set r6 bit + spi2.write(r_array[5]); //set r5 bit + spi2.write(r_array[4]); //set r4 bit + spi2.write(r_array[3]); //set r3 bit + spi2.write(r_array[2]); //set r2 bit + spi2.write(r_array[1]); //set r1 bit + spi2.write(r_array[0]); //set r0 bit + //set blue bits + spi2.write(b_array[7]); //set b7 bit + spi2.write(b_array[6]); //set b6 bit + spi2.write(b_array[5]); //set b5 bit + spi2.write(b_array[4]); //set b4 bit + spi2.write(b_array[3]); //set b3 bit + spi2.write(b_array[2]); //set b2 bit + spi2.write(b_array[1]); //set b1 bit + spi2.write(b_array[0]); //set b0 bit + //LED7 + //set green bits + spi2.write(g_array[7]); //set g7 bit + spi2.write(g_array[6]); //set g6 bit + spi2.write(g_array[5]); //set g5 bit + spi2.write(g_array[4]); //set g4 bit + spi2.write(g_array[3]); //set g3 bit + spi2.write(g_array[2]); //set g2 bit + spi2.write(g_array[1]); //set g1 bit + spi2.write(g_array[0]);//set g0 bit + //set red bits + spi2.write(r_array[7]);//set r7 bit + spi2.write(r_array[6]); //set r6 bit + spi2.write(r_array[5]); //set r5 bit + spi2.write(r_array[4]); //set r4 bit + spi2.write(r_array[3]); //set r3 bit + spi2.write(r_array[2]); //set r2 bit + spi2.write(r_array[1]); //set r1 bit + spi2.write(r_array[0]); //set r0 bit + //set blue bits + spi2.write(b_array[7]); //set b7 bit + spi2.write(b_array[6]); //set b6 bit + spi2.write(b_array[5]); //set b5 bit + spi2.write(b_array[4]); //set b4 bit + spi2.write(b_array[3]); //set b3 bit + spi2.write(b_array[2]); //set b2 bit + spi2.write(b_array[1]); //set b1 bit + spi2.write(b_array[0]); //set b0 bit + + //wait for latch + wait_us(60); +} + void setRGBPixel(int r, int g, int b){ @@ -377,7 +621,7 @@ wait_us(60); } -void setRGBPixels(int colours[8][3]){ +void setRGBPixels1(int colours[8][3]){ //translate int values to array of 0xF00 (0) and 0xFF0 (1) binary int r0_array[8]; //LED0 int g0_array[8]; @@ -659,6 +903,288 @@ wait_us(60); } +void setRGBPixels2(int colours[8][3]){ + //translate int values to array of 0xF00 (0) and 0xFF0 (1) binary + int r0_array[8]; //LED0 + int g0_array[8]; + int b0_array[8]; + memcpy(r0_array, decimalToBinary(colours[0][0]), sizeof(r0_array)); + memcpy(g0_array, decimalToBinary(colours[0][1]), sizeof(g0_array)); + memcpy(b0_array, decimalToBinary(colours[0][2]), sizeof(b0_array)); + int r1_array[8]; //LED1 + int g1_array[8]; + int b1_array[8]; + memcpy(r1_array, decimalToBinary(colours[1][0]), sizeof(r1_array)); + memcpy(g1_array, decimalToBinary(colours[1][1]), sizeof(g1_array)); + memcpy(b1_array, decimalToBinary(colours[1][2]), sizeof(b1_array)); + int r2_array[8]; //LED2 + int g2_array[8]; + int b2_array[8]; + memcpy(r2_array, decimalToBinary(colours[2][0]), sizeof(r2_array)); + memcpy(g2_array, decimalToBinary(colours[2][1]), sizeof(g2_array)); + memcpy(b2_array, decimalToBinary(colours[2][2]), sizeof(b2_array)); + int r3_array[8]; //LED3 + int g3_array[8]; + int b3_array[8]; + memcpy(r3_array, decimalToBinary(colours[3][0]), sizeof(r3_array)); + memcpy(g3_array, decimalToBinary(colours[3][1]), sizeof(g3_array)); + memcpy(b3_array, decimalToBinary(colours[3][2]), sizeof(b3_array)); + int r4_array[8]; //LED4 + int g4_array[8]; + int b4_array[8]; + memcpy(r4_array, decimalToBinary(colours[4][0]), sizeof(r4_array)); + memcpy(g4_array, decimalToBinary(colours[4][1]), sizeof(g4_array)); + memcpy(b4_array, decimalToBinary(colours[4][2]), sizeof(b4_array)); + int r5_array[8]; //LED5 + int g5_array[8]; + int b5_array[8]; + memcpy(r5_array, decimalToBinary(colours[5][0]), sizeof(r5_array)); + memcpy(g5_array, decimalToBinary(colours[5][1]), sizeof(g5_array)); + memcpy(b5_array, decimalToBinary(colours[5][2]), sizeof(b5_array)); + int r6_array[8]; //LED6 + int g6_array[8]; + int b6_array[8]; + memcpy(r6_array, decimalToBinary(colours[6][0]), sizeof(r6_array)); + memcpy(g6_array, decimalToBinary(colours[6][1]), sizeof(g6_array)); + memcpy(b6_array, decimalToBinary(colours[6][2]), sizeof(b6_array)); + int r7_array[8]; //LED7 + int g7_array[8]; + int b7_array[8]; + memcpy(r7_array, decimalToBinary(colours[7][0]), sizeof(r7_array)); + memcpy(g7_array, decimalToBinary(colours[7][1]), sizeof(g7_array)); + memcpy(b7_array, decimalToBinary(colours[7][2]), sizeof(b7_array)); + + //send commands to LED Driver + //initialize SPI + spi_init(); + //LED0 + //set green bits + spi2.write(g0_array[7]); //set g7 bit + spi2.write(g0_array[6]); //set g6 bit + spi2.write(g0_array[5]); //set g5 bit + spi2.write(g0_array[4]); //set g4 bit + spi2.write(g0_array[3]); //set g3 bit + spi2.write(g0_array[2]); //set g2 bit + spi2.write(g0_array[1]); //set g1 bit + spi2.write(g0_array[0]);//set g0 bit + //set red bits + spi2.write(r0_array[7]);//set r7 bit + spi2.write(r0_array[6]); //set r6 bit + spi2.write(r0_array[5]); //set r5 bit + spi2.write(r0_array[4]); //set r4 bit + spi2.write(r0_array[3]); //set r3 bit + spi2.write(r0_array[2]); //set r2 bit + spi2.write(r0_array[1]); //set r1 bit + spi2.write(r0_array[0]); //set r0 bit + //set blue bits + spi2.write(b0_array[7]); //set b7 bit + spi2.write(b0_array[6]); //set b6 bit + spi2.write(b0_array[5]); //set b5 bit + spi2.write(b0_array[4]); //set b4 bit + spi2.write(b0_array[3]); //set b3 bit + spi2.write(b0_array[2]); //set b2 bit + spi2.write(b0_array[1]); //set b1 bit + spi2.write(b0_array[0]); //set b0 bit + //LED1 + //set green bits + spi2.write(g1_array[7]); //set g7 bit + spi2.write(g1_array[6]); //set g6 bit + spi2.write(g1_array[5]); //set g5 bit + spi2.write(g1_array[4]); //set g4 bit + spi2.write(g1_array[3]); //set g3 bit + spi2.write(g1_array[2]); //set g2 bit + spi2.write(g1_array[1]); //set g1 bit + spi2.write(g1_array[0]);//set g0 bit + //set red bits + spi2.write(r1_array[7]);//set r7 bit + spi2.write(r1_array[6]); //set r6 bit + spi2.write(r1_array[5]); //set r5 bit + spi2.write(r1_array[4]); //set r4 bit + spi2.write(r1_array[3]); //set r3 bit + spi2.write(r1_array[2]); //set r2 bit + spi2.write(r1_array[1]); //set r1 bit + spi2.write(r1_array[0]); //set r0 bit + //set blue bits + spi2.write(b1_array[7]); //set b7 bit + spi2.write(b1_array[6]); //set b6 bit + spi2.write(b1_array[5]); //set b5 bit + spi2.write(b1_array[4]); //set b4 bit + spi2.write(b1_array[3]); //set b3 bit + spi2.write(b1_array[2]); //set b2 bit + spi2.write(b1_array[1]); //set b1 bit + spi2.write(b1_array[0]); //set b0 bit + //LED2 + //set green bits + spi2.write(g2_array[7]); //set g7 bit + spi2.write(g2_array[6]); //set g6 bit + spi2.write(g2_array[5]); //set g5 bit + spi2.write(g2_array[4]); //set g4 bit + spi2.write(g2_array[3]); //set g3 bit + spi2.write(g2_array[2]); //set g2 bit + spi2.write(g2_array[1]); //set g1 bit + spi2.write(g2_array[0]);//set g0 bit + //set red bits + spi2.write(r2_array[7]);//set r7 bit + spi2.write(r2_array[6]); //set r6 bit + spi2.write(r2_array[5]); //set r5 bit + spi2.write(r2_array[4]); //set r4 bit + spi2.write(r2_array[3]); //set r3 bit + spi2.write(r2_array[2]); //set r2 bit + spi2.write(r2_array[1]); //set r1 bit + spi2.write(r2_array[0]); //set r0 bit + //set blue bits + spi2.write(b2_array[7]); //set b7 bit + spi2.write(b2_array[6]); //set b6 bit + spi2.write(b2_array[5]); //set b5 bit + spi2.write(b2_array[4]); //set b4 bit + spi2.write(b2_array[3]); //set b3 bit + spi2.write(b2_array[2]); //set b2 bit + spi2.write(b2_array[1]); //set b1 bit + spi2.write(b2_array[0]); //set b0 bit + //LED3 + //set green bits + spi2.write(g3_array[7]); //set g7 bit + spi2.write(g3_array[6]); //set g6 bit + spi2.write(g3_array[5]); //set g5 bit + spi2.write(g3_array[4]); //set g4 bit + spi2.write(g3_array[3]); //set g3 bit + spi2.write(g3_array[2]); //set g2 bit + spi2.write(g3_array[1]); //set g1 bit + spi2.write(g3_array[0]);//set g0 bit + //set red bits + spi2.write(r3_array[7]);//set r7 bit + spi2.write(r3_array[6]); //set r6 bit + spi2.write(r3_array[5]); //set r5 bit + spi2.write(r3_array[4]); //set r4 bit + spi2.write(r3_array[3]); //set r3 bit + spi2.write(r3_array[2]); //set r2 bit + spi2.write(r3_array[1]); //set r1 bit + spi2.write(r3_array[0]); //set r0 bit + //set blue bits + spi2.write(b3_array[7]); //set b7 bit + spi2.write(b3_array[6]); //set b6 bit + spi2.write(b3_array[5]); //set b5 bit + spi2.write(b3_array[4]); //set b4 bit + spi2.write(b3_array[3]); //set b3 bit + spi2.write(b3_array[2]); //set b2 bit + spi2.write(b3_array[1]); //set b1 bit + spi2.write(b3_array[0]); //set b0 bit + //LED4 + //set green bits + spi2.write(g4_array[7]); //set g7 bit + spi2.write(g4_array[6]); //set g6 bit + spi2.write(g4_array[5]); //set g5 bit + spi2.write(g4_array[4]); //set g4 bit + spi2.write(g4_array[3]); //set g3 bit + spi2.write(g4_array[2]); //set g2 bit + spi2.write(g4_array[1]); //set g1 bit + spi2.write(g4_array[0]);//set g0 bit + //set red bits + spi2.write(r4_array[7]);//set r7 bit + spi2.write(r4_array[6]); //set r6 bit + spi2.write(r4_array[5]); //set r5 bit + spi2.write(r4_array[4]); //set r4 bit + spi2.write(r4_array[3]); //set r3 bit + spi2.write(r4_array[2]); //set r2 bit + spi2.write(r4_array[1]); //set r1 bit + spi2.write(r4_array[0]); //set r0 bit + //set blue bits + spi2.write(b4_array[7]); //set b7 bit + spi2.write(b4_array[6]); //set b6 bit + spi2.write(b4_array[5]); //set b5 bit + spi2.write(b4_array[4]); //set b4 bit + spi2.write(b4_array[3]); //set b3 bit + spi2.write(b4_array[2]); //set b2 bit + spi2.write(b4_array[1]); //set b1 bit + spi2.write(b4_array[0]); //set b0 bit + //LED5 + //set green bits + spi2.write(g5_array[7]); //set g7 bit + spi2.write(g5_array[6]); //set g6 bit + spi2.write(g5_array[5]); //set g5 bit + spi2.write(g5_array[4]); //set g4 bit + spi2.write(g5_array[3]); //set g3 bit + spi2.write(g5_array[2]); //set g2 bit + spi2.write(g5_array[1]); //set g1 bit + spi2.write(g5_array[0]);//set g0 bit + //set red bits + spi2.write(r5_array[7]);//set r7 bit + spi2.write(r5_array[6]); //set r6 bit + spi2.write(r5_array[5]); //set r5 bit + spi2.write(r5_array[4]); //set r4 bit + spi2.write(r5_array[3]); //set r3 bit + spi2.write(r5_array[2]); //set r2 bit + spi2.write(r5_array[1]); //set r1 bit + spi2.write(r5_array[0]); //set r0 bit + //set blue bits + spi2.write(b5_array[7]); //set b7 bit + spi2.write(b5_array[6]); //set b6 bit + spi2.write(b5_array[5]); //set b5 bit + spi2.write(b5_array[4]); //set b4 bit + spi2.write(b5_array[3]); //set b3 bit + spi2.write(b5_array[2]); //set b2 bit + spi2.write(b5_array[1]); //set b1 bit + spi2.write(b5_array[0]); //set b0 bit + //LED6 + //set green bits + spi2.write(g6_array[7]); //set g7 bit + spi2.write(g6_array[6]); //set g6 bit + spi2.write(g6_array[5]); //set g5 bit + spi2.write(g6_array[4]); //set g4 bit + spi2.write(g6_array[3]); //set g3 bit + spi2.write(g6_array[2]); //set g2 bit + spi2.write(g6_array[1]); //set g1 bit + spi2.write(g6_array[0]);//set g0 bit + //set red bits + spi2.write(r6_array[7]);//set r7 bit + spi2.write(r6_array[6]); //set r6 bit + spi2.write(r6_array[5]); //set r5 bit + spi2.write(r6_array[4]); //set r4 bit + spi2.write(r6_array[3]); //set r3 bit + spi2.write(r6_array[2]); //set r2 bit + spi2.write(r6_array[1]); //set r1 bit + spi2.write(r6_array[0]); //set r0 bit + //set blue bits + spi2.write(b6_array[7]); //set b7 bit + spi2.write(b6_array[6]); //set b6 bit + spi2.write(b6_array[5]); //set b5 bit + spi2.write(b6_array[4]); //set b4 bit + spi2.write(b6_array[3]); //set b3 bit + spi2.write(b6_array[2]); //set b2 bit + spi2.write(b6_array[1]); //set b1 bit + spi2.write(b6_array[0]); //set b0 bit + //LED7 + //set green bits + spi2.write(g7_array[7]); //set g7 bit + spi2.write(g7_array[6]); //set g6 bit + spi2.write(g7_array[5]); //set g5 bit + spi2.write(g7_array[4]); //set g4 bit + spi2.write(g7_array[3]); //set g3 bit + spi2.write(g7_array[2]); //set g2 bit + spi2.write(g7_array[1]); //set g1 bit + spi2.write(g7_array[0]);//set g0 bit + //set red bits + spi2.write(r7_array[7]);//set r7 bit + spi2.write(r7_array[6]); //set r6 bit + spi2.write(r7_array[5]); //set r5 bit + spi2.write(r7_array[4]); //set r4 bit + spi2.write(r7_array[3]); //set r3 bit + spi2.write(r7_array[2]); //set r2 bit + spi2.write(r7_array[1]); //set r1 bit + spi2.write(r7_array[0]); //set r0 bit + //set blue bits + spi2.write(b7_array[7]); //set b7 bit + spi2.write(b7_array[6]); //set b6 bit + spi2.write(b7_array[5]); //set b5 bit + spi2.write(b7_array[4]); //set b4 bit + spi2.write(b7_array[3]); //set b3 bit + spi2.write(b7_array[2]); //set b2 bit + spi2.write(b7_array[1]); //set b1 bit + spi2.write(b7_array[0]); //set b0 bit + //wait for latch + wait_us(60); +} +/* void setRGBFloor_1(int room1[8][3], int room2[8][3]){ //translate int values to array of 0xF00 (0) and 0xFF0 (1) binary //room1 @@ -1778,7 +2304,7 @@ //wait for latch wait_us(60); } - +*/ int * decimalToBinary(int n) // converts decimal value to 8 bit array of 1's (0xFF0) and 0's (0xF00) { int reminder;