// Copyright Benoit Blanchon 2014-2016 // MIT License // // Arduino JSON library // https://github.com/bblanchon/ArduinoJson // If you like this project, please add a star! #include void setup() { Serial.begin(9600); while (!Serial) { // wait serial port initialization } // Memory pool for JSON object tree. // // Inside the brackets, 200 is the size of the pool in bytes, // If the JSON object is more complex, you need to increase that value. StaticJsonBuffer<200> jsonBuffer; // StaticJsonBuffer allocates memory on the stack, it can be // replaced by DynamicJsonBuffer which allocates in the heap. // It's simpler but less efficient. // // DynamicJsonBuffer jsonBuffer; // JSON input string. // // It's better to use a char[] as shown here. // If you use a const char* or a String, ArduinoJson will // have to make a copy of the input in the JsonBuffer. char json[] = "{\"sensor\":\"gps\",\"time\":1351824120,\"data\":[48.756080,2.302038]}"; // Root of the object tree. // // It's a reference to the JsonObject, the actual bytes are inside the // JsonBuffer with all the other nodes of the object tree. // Memory is freed when jsonBuffer goes out of scope. JsonObject& root = jsonBuffer.parseObject(json); // Test if parsing succeeds. if (!root.success()) { Serial.println("parseObject() failed"); return; } // Fetch values. // // Most of the time, you can rely on the implicit casts. // In other case, you can do root["time"].as(); const char* sensor = root["sensor"]; long time = root["time"]; double latitude = root["data"][0]; double longitude = root["data"][1]; // Print values. Serial.println(sensor); Serial.println(time); Serial.println(latitude, 6); Serial.println(longitude, 6); } void loop() { // not used in this example }