can someone help me combine this two sketches ? desperately need your help .

first coding is water flow sensor.

/*
Liquid flow rate sensor -DIYhacking.com Arvind Sanjeev

Measure the liquid/water flow rate using this code.
Connect Vcc and Gnd of sensor to arduino, and the
signal line to arduino digital pin 2.

*/

byte statusLed = 13;

byte sensorInterrupt = 0; // 0 = digital pin 2
byte sensorPin = 2;

// The hall-effect flow sensor outputs approximately 4.5 pulses per second per
// litre/minute of flow.
float calibrationFactor = 4.5;

volatile byte pulseCount;

float flowRate;
unsigned int flowMilliLitres;
unsigned long totalMilliLitres;

unsigned long oldTime;

void setup()
{

// Initialize a serial connection for reporting values to the host
Serial.begin(38400);

// Set up the status LED line as an output
pinMode(statusLed, OUTPUT);
digitalWrite(statusLed, HIGH); // We have an active-low LED attached

pinMode(sensorPin, INPUT);
digitalWrite(sensorPin, HIGH);

pulseCount = 0;
flowRate = 0.0;
flowMilliLitres = 0;
totalMilliLitres = 0;
oldTime = 0;

// The Hall-effect sensor is connected to pin 2 which uses interrupt 0.
// Configured to trigger on a FALLING state change (transition from HIGH
// state to LOW state)
attachInterrupt(sensorInterrupt, pulseCounter, FALLING);
}

/**

  • Main program loop
    */
    void loop()
    {

if((millis() - oldTime) > 1000) // Only process counters once per second
{
// Disable the interrupt while calculating flow rate and sending the value to
// the host
detachInterrupt(sensorInterrupt);

// Because this loop may not complete in exactly 1 second intervals we calculate
// the number of milliseconds that have passed since the last execution and use
// that to scale the output. We also apply the calibrationFactor to scale the output
// based on the number of pulses per second per units of measure (litres/minute in
// this case) coming from the sensor.
flowRate = ((1000.0 / (millis() - oldTime)) * pulseCount) / calibrationFactor;

// Note the time this processing pass was executed. Note that because we've
// disabled interrupts the millis() function won't actually be incrementing right
// at this point, but it will still return the value it was set to just before
// interrupts went away.
oldTime = millis();

// Divide the flow rate in litres/minute by 60 to determine how many litres have
// passed through the sensor in this 1 second interval, then multiply by 1000 to
// convert to millilitres.
flowMilliLitres = (flowRate / 60) * 1000;

// Add the millilitres passed in this second to the cumulative total
totalMilliLitres += flowMilliLitres;

unsigned int frac;

// Print the flow rate for this second in litres / minute
Serial.print("Flow rate: ");
Serial.print(int(flowRate)); // Print the integer part of the variable
Serial.print("."); // Print the decimal point
// Determine the fractional part. The 10 multiplier gives us 1 decimal place.
frac = (flowRate - int(flowRate)) * 10;
Serial.print(frac, DEC) ; // Print the fractional part of the variable
Serial.print("L/min");
// Print the number of litres flowed in this second
Serial.print(" Current Liquid Flowing: "); // Output separator
Serial.print(flowMilliLitres);
Serial.print("mL/Sec");

// Print the cumulative total of litres flowed since starting
Serial.print(" Output Liquid Quantity: "); // Output separator
Serial.print(totalMilliLitres);
Serial.println("mL");

// Reset the pulse counter so we can start incrementing again
pulseCount = 0;

// Enable the interrupt again now that we've finished sending output
attachInterrupt(sensorInterrupt, pulseCounter, FALLING);
}
}

/*
Insterrupt Service Routine
*/
void pulseCounter()
{
// Increment the pulse counter
pulseCount++;
}

Second is moisture sensor.

#include<LiquidCrystal.h>

LiquidCrystal lcd(7,6,5,4,3,2);

void setup() {

lcd.begin(16,2);
Serial.begin(9600);
}

void loop() {
// read the input on analog pin 0:
int sensorValue = analogRead(A0);
Serial.println(sensorValue);

if(sensorValue<400) {

lcd.print("Soil Type:Watery ");
lcd.setCursor(0,1);
lcd.print("Level: 80~99%");
delay(1000);
lcd.clear();

delay(2000);

}

if((sensorValue>400)&&(sensorValue<600)) {
lcd.print("Soil Type:Humid ");
lcd.setCursor(0,1);
lcd.print("Level: 45~65%");
delay(1000);
lcd.clear();
delay(2000);

}

if((sensorValue>600)&&(sensorValue<950)){

lcd.print("Soil Type:Dry ");
lcd.setCursor(0,1);
lcd.print("Level: 0~5%");
delay(1000);
lcd.clear();

delay(2000);
}

}

helppp :-[

Merge the code in the two "setup"s, making sure you don't have any resource clashes, like using the same pin twice, or trying to run the serial port at two different speeds.
Merge the code in the two "loop"s.
Test.

Please remember to use code tags when posting code.

Ya, I see no special considerations. One sketch is a little complicated - but only slightly, and the other one is really vanilla. just combine the two setups, and the two loops, and retain all other functions, includes, and global variable declarations from both sketches.

Oh- no, there is one issue. You have the LCD connected to pin 2, but that's also where you have the flow sensor connected. So put the flow sensor wire on another pin, and change sensorPin to whatever pin you picked.

This merge demo may help to illustrate the process.

...R