/* * Calculate the sum and average of a list of floating point numbers */ #include #include // SD chip select pin const uint8_t chipSelect = SS; // object for the SD file system SdFat sd; // define a serial output stream ArduinoOutStream cout(Serial); //------------------------------------------------------------------------------ void writeTestFile() { // open the output file ofstream sdout("AVG_TEST.TXT"); // write a series of float numbers for (int16_t i = -1001; i < 2000; i += 13) { sdout << 0.1 * i << endl; } if (!sdout) sd.errorHalt("sdout failed"); sdout.close(); } //------------------------------------------------------------------------------ void calcAverage() { uint16_t n = 0; // count of input numbers double num; // current input number double sum = 0; // sum of input numbers // open the input file ifstream sdin("AVG_TEST.TXT"); // check for an open failure if (!sdin) sd.errorHalt("sdin failed"); // read and sum the numbers while (sdin >> num) { n++; sum += num; } // print the results cout << "sum of " << n << " numbers = " << sum << endl; cout << "average = " << sum/n << endl; } //------------------------------------------------------------------------------ void setup() { Serial.begin(9600); while (!Serial) {} // wait for Leonardo // pstr stores strings in flash to save RAM cout << pstr("Type any character to start\n"); while (Serial.read() <= 0) {} delay(400); // Catch Due reset problem // initialize the SD card at SPI_HALF_SPEED to avoid bus errors with // breadboards. use SPI_FULL_SPEED for better performance. if (!sd.begin(chipSelect, SPI_HALF_SPEED)) sd.initErrorHalt(); // write the test file writeTestFile(); // read the test file and calculate the average calcAverage(); } //------------------------------------------------------------------------------ void loop() {}