desember 22, 2020
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Hvordan hoppe utenfor løkken? nedenfor Program hvordan du bruker goto eller et annet hopprelatert program

const int analogPin1 = A1; const int analogPin2 = A2; const int analogPin3 = A3; const int ledPin = 13; const int ledPin2 = 7; const int thresold = 400; unsigned int x1, x2, x3, fault = 0; void setup() { pinMode(ledPin, OUTPUT); Serial.begin(9600); } void Config() { delay(1000); Serial.print("ATE0r"); Response(); Serial.print("ATr"); Response(); Serial.print("AT+CMGF=1r"); Response(); Serial.print("AT+CNMI=1,2,0,0,0r"); Response(); } void Response() { int count = 0; Serial.println(); while (1) { if (Serial.available()) { char data = Serial.read(); if (data == "K") { Serial.println("OK"); break; } if (data == "R") { Serial.println("GSM Not Working"); break; } } count++; delay(10); if (count == 1000) { Serial.println("GSM not Found"); break; } } } void loop() { int analogValue1 = analogRead(analogPin1); int analogValue2 = analogRead(analogPin2); int analogValue3 = analogRead(analogPin3); if (analogValue1 < thresold) { x1 = 1; fault = x1; } if (analogValue2 < thresold) { x2 = x1 + 3; fault = x2; } if (analogValue3 < thresold) { x3 = x1 + x2 + 5; fault = x3; } switch (fault) { case 1: digitalWrite(ledPin, HIGH); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("PHASE 1 HAS GONE"); delay(1000); Serial.write(0x1A); delay(1000); goto nsr; break; case 3: digitalWrite(ledPin, HIGH); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("2 HAS GONE"); delay(1000); Serial.write(0x1A); delay(1000); goto nsr; break; case 4: digitalWrite(ledPin, HIGH); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("1 AND 2 HAS GONE"); delay(1000); Serial.write(0x1A); delay(1000); goto nsr; break; case 5: digitalWrite(ledPin, HIGH); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("3 HAS GONE"); delay(1000); Serial.write(0x1A); delay(1000); Serial.print("AT+CNMI=2,2,0,0,0"); goto nsr; break; case 6: digitalWrite(ledPin, HIGH); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("1 AND 3 HAS GONE"); delay(1000); Serial.write(0x1A); delay(1000); goto nsr; break; case 8: digitalWrite(ledPin, HIGH); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("2 AND 3 HAS GONE"); delay(1000); Serial.write(0x1A); delay(1000); goto nsr; break; case 10: digitalWrite(ledPin, HIGH); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("ALL 3 HAS GONE"); delay(1000); Serial.write(0x1A); delay(1000); goto nsr; break; default: x1, x2, x3, fault = 0; digitalWrite(ledPin, LOW); break; } x1, x2, x3, fault = 0; digitalWrite(ledPin, LOW); do { int analogValue1 = analogRead(analogPin1); int analogValue2 = analogRead(analogPin2); int analogValue3 = analogRead(analogPin3); } while (analogValue1 < thresold || analogValue2 < thresold || analogValue3 < thresold); } do { int analogValue1 = analogRead(analogPin1); int analogValue2 = analogRead(analogPin2); int analogValue3 = analogRead(analogPin3); } while ((analogValue1 > th) && (analogValue2 > th) && (analogValue3 > th)); } nsr : if ((analogValue1 > th) && (analogValue2 > th) && (analogValue3 > th)) { digitalWrite(ledPin, HIGH); Serial.begin(9600); Serial.print("\r"); delay(1000); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("ALL 3 Phase Restored"); delay(1000); Serial.write(0x1A); delay(1000); Serial.print("\r"); delay(1000); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("ALL 3 Phase Restored"); delay(1000); Serial.write(0x1A); delay(1000); do { int analogValue1 = analogRead(analogPin1); int analogValue2 = analogRead(analogPin2); int analogValue3 = analogRead(analogPin3); } while ((analogValue1 > th) && (analogValue2 > th) && (analogValue3 > th)); }

Kommentarer

  • Formater koden riktig. Jeg kan ' ikke følge med på hva som går med hva der.
  • Ja, stygg bit spaghettikode (virkelig pent sagt).
  • Og etter å ha brukt C ++ formater er det ' ganske åpenbart hvorfor det kan ' t jobbe
  • Bare for nysgjerrigheten skal x1, x2, x3, fault = 0; sette disse variablene til null? Jeg har dårlige nyheter til deg.

Svar

Du vil opprette en egen funksjon nsr og bruk den i stedet for å gå. 

void nsr(void){ if ((analogValue1 > th) && (analogValue2 > th) && (analogValue3 > th)) { digitalWrite(ledPin, HIGH); Serial.begin(9600); Serial.print("\r"); delay(1000); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("ALL 3 Phase Restored"); delay(1000); Serial.write(0x1A); delay(1000); Serial.print("\r"); delay(1000); Serial.print("AT+CMGF=1\r"); delay(1000); Serial.print("AT+CMGS=\"+919\"\r"); delay(1000); Serial.print("ALL 3 Phase Restored"); delay(1000); Serial.write(0x1A); delay(1000); do { int analogValue1 = analogRead(analogPin1); int analogValue2 = analogRead(analogPin2); int analogValue3 = analogRead(analogPin3); } while ((analogValue1 > th) && (analogValue2 > th) && (analogValue3 > th)); } }

Svar

I stedet for å bruke 

goto nsr

Bruk en boolesk for å hoppe over deler du ikke vil utføre. Det er (nesten) aldri en god idé å bruke goto.

På grunn av feiljusteringen av {and} vet jeg ikke hva du akkurat vil utføre.

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