/* * This example reads a simple CSV, comma-separated values, file. * Each line of the file has a label and three values, a long and two floats. */ #include #include "SdFat.h" #include "sdios.h" // SD chip select pin const uint8_t chipSelect = SS; // file system object SdFat sd; // create Serial stream ArduinoOutStream cout(Serial); char fileName[] = "testfile.csv"; //------------------------------------------------------------------------------ // store error strings in flash to save RAM #define error(s) sd.errorHalt(F(s)) //------------------------------------------------------------------------------ // read and print CSV test file void readFile() { long lg = 0; float f1, f2; char text[10]; char c1, c2, c3; // space for commas. // open input file ifstream sdin(fileName); // check for open error if (!sdin.is_open()) { error("open"); } // read until input fails while (1) { // Get text field. sdin.get(text, sizeof(text), ','); // Assume EOF if fail. if (sdin.fail()) { break; } // Get commas and numbers. sdin >> c1 >> lg >> c2 >> f1 >> c3 >> f2; // Skip CR/LF. sdin.skipWhite(); if (sdin.fail()) { error("bad input"); } // error in line if not commas if (c1 != ',' || c2 != ',' || c3 != ',') { error("comma"); } // print in six character wide columns cout << text << setw(6) << lg << setw(6) << f1 << setw(6) << f2 << endl; } // Error in an input line if file is not at EOF. if (!sdin.eof()) { error("readFile"); } } //------------------------------------------------------------------------------ // write test file void writeFile() { // create or open and truncate output file ofstream sdout(fileName); // write file from string stored in flash sdout << F( "Line 1,1,2.3,4.5\n" "Line 2,6,7.8,9.0\n" "Line 3,9,8.7,6.5\n" "Line 4,-4,-3.2,-1\n") << flush; // check for any errors if (!sdout) { error("writeFile"); } sdout.close(); } //------------------------------------------------------------------------------ void setup() { Serial.begin(9600); // Wait for USB Serial while (!Serial) { SysCall::yield(); } cout << F("Type any character to start\n"); while (!Serial.available()) { SysCall::yield(); } // Initialize at the highest speed supported by the board that is // not over 50 MHz. Try a lower speed if SPI errors occur. if (!sd.begin(chipSelect, SD_SCK_MHZ(50))) { sd.initErrorHalt(); } // create test file writeFile(); cout << endl; // read and print test readFile(); cout << "\nDone!" << endl; } void loop() {}