236 lines
6.5 KiB
C++
236 lines
6.5 KiB
C++
/*
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reads out a lcd display
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based on:
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https://lowpowerlab.com/forum/projects/moteino-kitchen-scale/
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An Arduino Pro Micro was used first as a simple logic analyser,
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to find the common pins and the segment pins. See the other sketch.
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Later the same arduino was put with this sketch inside the scale to provide
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serial output via usb.
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This paricular display is part of a transtek kitchen scale
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(pcb label: tsk759)
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The connector in numbered like this
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----top border of the board----
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0 2 4 6 8 10 12 14
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1 3 5 7 9 11 13 15
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Pins 0 to 3 are the common pins, but since they are phase shifted by 90° only one
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is needed.
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Only Pins 8 to 15 carry useful information. All others are ignored.
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*/
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byte samples[2][56];
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// lcd mapping
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int seg1[2] = { PINB2, PINB6 };
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int seg2[2] = { PINB4, PINB3 };
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int seg3[2] = { PINB2, PINB6 };
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int seg4[2] = { PINB2, PINB6 };
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void setup() {
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Serial.begin(115200);
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}
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void loop() {
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get_samples(); // reads out the registers
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if (Serial.read() > 0) {
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int pulse = get_pulse();
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//print_segments(pulse);
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print_4digit(pulse);
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print_3digit(pulse);
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print_digit(pulse, seg2);
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print_digit(pulse, seg1);
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Serial.println();
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}
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}
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void get_samples() {
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int f=0;
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while (f<56) {
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samples[0][f] = PINB;
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samples[1][f] = PIND;
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delayMicroseconds(333); // = 1/3 ms. three samples in 1ms, which is the approximate pulse width.
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f++;
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}
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}
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// try to find the position, where the control signal triggers
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// looking for a sequence of more than four ones seams sufficient
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int get_pulse() {
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int n = 0;
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int f = 0;
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while (f<30) {
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if ((samples[1][f]& (1 << PIND3))) {
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n++;
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if (n>4) break;
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}
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else n=0;
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f++;
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}
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return f - 3; // sets the index in the first 1ms of the trigger event
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}
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void print_digit(int start, int seg[]) {
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byte digit = InterpretSevenSegmentSet(
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samples[0][start + 18]&(1<<seg[0]), // A or D
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samples[0][start + 6]&(1<<seg[1]), // B
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samples[0][start + 12]&(1<<seg[1]), // C
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samples[0][start]&(1<<seg[1]), // A or D
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samples[0][start + 12]&(1<<seg[0]), // E
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samples[0][start]&(1<<seg[0]), // F
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samples[0][start + 6]&(1<<seg[0]) // G
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);
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if (digit == 255) return;
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else Serial.print(digit, DEC);
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}
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void print_4digit(int start) {
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// print 4th digit
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// B1 is 8
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// D4 is 9
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byte digit = InterpretSevenSegmentSet(
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samples[0][start + 18]&(1<<PINB1), // A or D
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samples[1][start + 6]&(1<<PIND4), // B
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samples[1][start + 12]&(1<<PIND4), // C
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samples[1][start]&(1<<PIND4), // A or D
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samples[0][start + 12]&(1<<PINB1), // E
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samples[0][start]&(1<<PINB1), // F
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samples[0][start + 6]&(1<<PINB1) // G
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);
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if (digit == 255) return;
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else Serial.print(digit, DEC);
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}
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void print_3digit(int start) {
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// print 3rd digit
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// D7 is A
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// B5 is B
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byte digit = InterpretSevenSegmentSet(
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samples[1][start + 18]&(1<<PIND7), // A or D
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samples[0][start + 6]&(1<<PINB5), // B //
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samples[0][start + 12]&(1<<PINB5), // C //
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samples[0][start]&(1<<PINB5), // A or D
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samples[1][start + 12]&(1<<PIND7), // E //
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samples[1][start]&(1<<PIND7), // F
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samples[1][start + 6]&(1<<PIND7) // G
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);
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if (digit == 255) return;
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else Serial.print(digit, DEC);
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}
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void print_2digit(int start) {
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// print 2nd digit
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// B4 is C
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// B3 is D
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byte digit = InterpretSevenSegmentSet(
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samples[0][start + 18]&(1<<PINB4), // A or D
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samples[0][start + 6]&(1<<PINB3), // B //
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samples[0][start + 12]&(1<<PINB3), // C //
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samples[0][start]&(1<<PINB3), // A or D
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samples[0][start + 12]&(1<<PINB4), // E //
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samples[0][start]&(1<<PINB4), // F
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samples[0][start + 6]&(1<<PINB4) // G
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);
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Serial.print(digit, DEC);
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}
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void print_1digit(int start) {
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// print 1st digit
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// B2 is E
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// B6 is F
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byte digit = InterpretSevenSegmentSet(
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samples[0][start + 18]&(1<<PINB2), // A or D
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samples[0][start + 6]&(1<<PINB6), // B //
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samples[0][start + 12]&(1<<PINB6), // C //
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samples[0][start]&(1<<PINB6), // A or D
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samples[0][start + 12]&(1<<PINB2), // E //
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samples[0][start]&(1<<PINB2), // F
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samples[0][start + 6]&(1<<PINB2) // G
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);
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Serial.print(digit, DEC);
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}
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/*
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attention! in this decision tree '1' represents off-segments
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maybe you have to inverse it.
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for a given digit, we have:
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A
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F B
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G
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E C
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D
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then, the algorithm is:
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*/
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byte InterpretSevenSegmentSet(byte A, byte B, byte C, byte D, byte E, byte F, byte G ) {
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byte digit;
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if(E) {
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if(F) {
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if(A) {
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if(B) digit = 0xff; // off
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else {
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if(D) digit = 1;
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else digit = 7;
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}
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}
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else digit = 3;
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}
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else {
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if(A) digit = 4;
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else {
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if(B) digit = 5;
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else digit = 9;
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}
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}
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}
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else {
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if(B) {
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if(C) {
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if(A) digit = 114; // "r"
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else digit = 69; // "E"
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}
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else digit = 6;
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}
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else {
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if(G) digit = 0;
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else {
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if(C) digit = 2;
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else digit = 8;
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}
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}
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}
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return digit;
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}
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// this is only needed once to map the pins correcly when using this script for another display
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// here the case index corresponds to the number of the pad at the display to make mapping easier.
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void print_segments(int start) {
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int i=2;
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while(i<16) {
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int f = start;
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Serial.print(i, HEX); Serial.print(": ");
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while (f< (start + 23))
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{
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switch(i) {
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case 9: if( (samples[1][f]& (1 << PIND4))) Serial.print("1"); else Serial.print("0"); break;
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case 10: if( (samples[1][f]& (1 << PIND7))) Serial.print("1"); else Serial.print("0"); break;
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case 12: if( (samples[0][f]& (1 << PINB4))) Serial.print("1"); else Serial.print("0"); break;
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case 11: if( (samples[0][f]& (1 << PINB5))) Serial.print("1"); else Serial.print("0"); break;
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case 15: if( (samples[0][f]& (1 << PINB6))) Serial.print("1"); else Serial.print("0"); break;
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case 14: if( (samples[0][f]& (1 << PINB2))) Serial.print("1"); else Serial.print("0"); break;
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case 13: if( (samples[0][f]& (1 << PINB3))) Serial.print("1"); else Serial.print("0"); break;
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case 8: if( (samples[0][f]& (1 << PINB1))) Serial.print("1"); else Serial.print("0"); break;
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}
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f = f + 6;
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}
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Serial.println();
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i++;
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}
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}
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