// CPP program to find number of horizontal (or vertical
// line segments needed to connect three points.
#include 
using namespace std;
 
// Function to check if the third point forms a
// rectangle with other two points at corners
bool isBetween(int a, int b, int c)
{
    return min(a, b) <= c && c <= max(a, b);
}
 
// Returns true if point k can be used as a joining
// point to connect using two line segments
bool canJoin(int x[], int y[], int i, int j, int k)
{
    // Check for the valid polyline with two segments
    return (x[k] == x[i] || x[k] == x[j]) &&
                isBetween(y[i], y[j], y[k]) ||
        (y[k] == y[i] || y[k] == y[j]) &&
                isBetween(x[i], x[j], x[k]);
}
 
int countLineSegments(int x[], int y[])
{
    // Check whether the X-coordinates or
    // Y-cocordinates are same.
    if ((x[0] == x[1] && x[1] == x[2]) ||
        (y[0] == y[1] && y[1] == y[2]))
        return 1;
 
    // Iterate over all pairs to check for two
    // line segments
    else if (canJoin(x, y, 0, 1, 2) ||
            canJoin(x, y, 0, 2, 1) ||
            canJoin(x, y, 1, 2, 0))
        return 2;
 
    // Otherwise answer is three.
    else
        return 3;
}
 
// Driver code
int main()
{
    int x[3], y[3];
    x[0] = -1; y[0] = -1;
    x[1] = -1; y[1] = 3;
    x[2] = 4; y[2] = 3;
    cout << countLineSegments(x, y);
    return 0;
}

// Java program to find number of horizontal
// (or vertical line segments needed to
// connect three points.
import java.io.*;
 
class GFG {
     
// Function to check if the third
// point forms a rectangle with
// other two points at corners
static boolean isBetween(int a, int b, int c)
{
    return (Math.min(a, b) <= c &&
                    c <= Math.max(a, b));
}
 
// Returns true if point k can be
// used as a joining point to connect
// using two line segments
static boolean canJoin(int x[], int y[],
                        int i, int j, int k)
{
    // Check for the valid polyline
    // with two segments
    return (x[k] == x[i] || x[k] == x[j]) &&
                isBetween(y[i], y[j], y[k]) ||
                (y[k] == y[i] || y[k] == y[j]) &&
                isBetween(x[i], x[j], x[k]);
}
 
static int countLineSegments(int x[], int y[])
{
    // Check whether the X-coordinates or
    // Y-cocordinates are same.
    if ((x[0] == x[1] && x[1] == x[2]) ||
        (y[0] == y[1] && y[1] == y[2]))
        return 1;
 
    // Iterate over all pairs to check for two
    // line segments
    else if (canJoin(x, y, 0, 1, 2) ||
            canJoin(x, y, 0, 2, 1) ||
            canJoin(x, y, 1, 2, 0))
        return 2;
 
    // Otherwise answer is three.
    else
        return 3;
}
 
// Driver code
public static void main (String[] args) {
 
    int x[]=new int[3], y[]=new int[3];
     
    x[0] = -1; y[0] = -1;
    x[1] = -1; y[1] = 3;
    x[2] = 4; y[2] = 3;
     
    System.out.println(countLineSegments(x, y));
    }
     
     
}
 
// This code is contributed by vt_m

# Python program to find number
# of horizontal (or vertical
# line segments needed to
# connect three points.
 
import math
 
# Function to check if the
# third point forms a
# rectangle with other
# two points at corners
def isBetween(a, b, c) :
 
    return min(a, b) <= c and c <= max(a, b)
 
  
# Returns true if point k
# can be used as a joining
# point to connect using
# two line segments
def canJoin( x, y, i, j, k) :
 
    # Check for the valid polyline
    # with two segments
    return (x[k] == x[i] or x[k] == x[j]) and isBetween(y[i], y[j], y[k]) or (y[k] == y[i] or y[k] == y[j]) and isBetween(x[i], x[j], x[k])
 
  
def countLineSegments( x, y):
 
    # Check whether the X-coordinates or
    # Y-cocordinates are same.
    if ((x[0] == x[1] and x[1] == x[2]) or
        (y[0] == y[1] and y[1] == y[2])):
        return 1
  
    # Iterate over all pairs to check for two
    # line segments
    elif (canJoin(x, y, 0, 1, 2) or
            canJoin(x, y, 0, 2, 1) or
            canJoin(x, y, 1, 2, 0)):
        return 2
  
    # Otherwise answer is three.
    else:
        return 3
#driver code
x= [-1,-1, 4]
y= [-1, 3, 3]
 
print(countLineSegments(x, y))
 
# This code is contributed by Gitanjali.

// C# program to find number of horizontal
// (or vertical) line segments needed to
// connect three points.
using System;
 
class GFG {
 
    // Function to check if the third
    // point forms a rectangle with
    // other two points at corners
    static bool isBetween(int a, int b, int c)
    {
        return (Math.Min(a, b) <= c &&
                          c <= Math.Max(a, b));
    }
 
    // Returns true if point k can be
    // used as a joining point to connect
    // using two line segments
    static bool canJoin(int[] x, int[] y,
                        int i, int j, int k)
    {
         
        // Check for the valid polyline
        // with two segments
        return (x[k] == x[i] || x[k] == x[j])
               && isBetween(y[i], y[j], y[k])
               || (y[k] == y[i] || y[k] == y[j])
               && isBetween(x[i], x[j], x[k]);
    }
 
    static int countLineSegments(int[] x, int[] y)
    {
         
        // Check whether the X-coordinates or
        // Y-cocordinates are same.
        if ((x[0] == x[1] && x[1] == x[2]) ||
                  (y[0] == y[1] && y[1] == y[2]))
            return 1;
 
        // Iterate over all pairs to check for two
        // line segments
        else if (canJoin(x, y, 0, 1, 2)
                      || canJoin(x, y, 0, 2, 1)
                      || canJoin(x, y, 1, 2, 0))
            return 2;
 
        // Otherwise answer is three.
        else
            return 3;
    }
 
    // Driver code
    public static void Main()
    {
 
        int[] x = new int[3];
        int[] y = new int[3];
 
        x[0] = -1;
        y[0] = -1;
        x[1] = -1;
        y[1] = 3;
        x[2] = 4;
        y[2] = 3;
 
        Console.WriteLine(countLineSegments(x, y));
    }
}
 
// This code is contributed by vt_m.