ELEC50003-P1-CW/Control/ref/vision.cpp

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#include <Arduino.h>
#include <ArduinoJson.h>
#include <string>
const int ARDUINO_IO[16] = {-1/*RX*/, -1/*RX*/, 23, 22, 21, 19, 18, 5, 17, 16, 14, 4, 15, 2, 13, 12}; // Expansion board mapping
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#define RXpin ARDUINO_IO[11] // Define your RX pin here
#define TXpin ARDUINO_IO[10] // Define your TX pin here
FILE* SerialUART;
void setup()
{
Serial.begin(115200); // Set up hardware UART0 (Connected to USB port)
}
void loop()
{
int command = getc(SerialUART);
// command char, used for controlling exposure/focus/gain settings:
// e = increase exposure
// d = decrease exposure
// r = increase focus
// f = decrease focus
// t = increase gain
// g = decrease gain
// Bounding Box edges
int bb_left = 0;
int bb_right = 0;
int bb_top = 0;
int bb_bottom = 0;
// Weighted average of detected pixels coordinates
int centre_x = 0;
int centre_y = 0;
// Heading from DE10-Lite magnetometer
float heading = 0.0;
// Build hardcode JSON packet on DE10-Lite using fprintf() as space is minimal and library would be too large.
// fprintf(SerialUART, "{\"bb\":[%d,%d,%d,%d],\"cen\":[%d,%d],\"cH\":%d\"}", bb_left, bb_right, bb_top, bb_bottom, centre_x, centre_y, heading);
DynamicJsonDocument rdoc(1024); // receive doc, not sure how big this needs to be
deserializeJson(rdoc, SerialUART);
bb_left = rdoc["bb"][0];
bb_right = rdoc["bb"][1];
bb_top = rdoc["bb"][2];
bb_bottom = rdoc["bb"][3];
centre_x = rdoc["cen"][0];
centre_y = rdoc["cen"][1];
heading = rdoc["cH"];
}