diff --git a/DHT.cpp b/DHT.cpp index 332b238..9181432 100644 --- a/DHT.cpp +++ b/DHT.cpp @@ -28,8 +28,8 @@ void DHT::begin(void) { // Using this value makes sure that millis() - lastreadtime will be // >= MIN_INTERVAL right away. Note that this assignment wraps around, // but so will the subtraction. - _lastreadtime = millis()-MIN_INTERVAL; - DEBUG_PRINT("Max clock cycles: "); DEBUG_PRINTLN(_maxcycles, DEC); + _lastreadtime = millis() - MIN_INTERVAL; + DEBUG_PRINT("DHT max clock cycles: "); DEBUG_PRINTLN(_maxcycles, DEC); } //boolean S == Scale. True == Fahrenheit; False == Celcius @@ -165,12 +165,12 @@ bool DHT::read(bool force) { // First expect a low signal for ~80 microseconds followed by a high signal // for ~80 microseconds again. if (expectPulse(LOW) == TIMEOUT) { - DEBUG_PRINTLN(F("Timeout waiting for start signal low pulse.")); + DEBUG_PRINTLN(F("DHT timeout waiting for start signal low pulse.")); _lastresult = false; return _lastresult; } if (expectPulse(HIGH) == TIMEOUT) { - DEBUG_PRINTLN(F("Timeout waiting for start signal high pulse.")); + DEBUG_PRINTLN(F("DHT timeout waiting for start signal high pulse.")); _lastresult = false; return _lastresult; } @@ -195,7 +195,7 @@ bool DHT::read(bool force) { uint32_t lowCycles = cycles[2*i]; uint32_t highCycles = cycles[2*i+1]; if ((lowCycles == TIMEOUT) || (highCycles == TIMEOUT)) { - DEBUG_PRINTLN(F("Timeout waiting for pulse.")); + DEBUG_PRINTLN(F("DHT timeout waiting for pulse.")); _lastresult = false; return _lastresult; } @@ -210,7 +210,7 @@ bool DHT::read(bool force) { // stored data. } - DEBUG_PRINTLN(F("Received:")); + DEBUG_PRINTLN(F("Received from DHT:")); DEBUG_PRINT(data[0], HEX); DEBUG_PRINT(F(", ")); DEBUG_PRINT(data[1], HEX); DEBUG_PRINT(F(", ")); DEBUG_PRINT(data[2], HEX); DEBUG_PRINT(F(", ")); @@ -224,7 +224,7 @@ bool DHT::read(bool force) { return _lastresult; } else { - DEBUG_PRINTLN(F("Checksum failure!")); + DEBUG_PRINTLN(F("DHT checksum failure!")); _lastresult = false; return _lastresult; }