# What is LCSAJ?

LCSAJ stands for Linear Code Sequence and Jump. Typically it contains three parts:
1) Initial step of the program code or a step to which control may jump and continue to execute after that.
2) The program terminating step or an instruction which lead to jump.
3) And the destination step of the jump.

Example:
Let’s there is a program which finds whether the input number is prime or not.

```   printf( “Enter the number:”);
scanf(“%d”,&num);
bPrime=true;
for(int i=2;i&<num/2;i++){
if( num%i==0){
printf( “ %d is factor of %d”, i, num);
bPrime = false;
}
}
if(bPrime==true){
printf( “Number is Prime”);
}
```

To find all LCSAJs in code, find all jumps in the program. Those are: (4->9, 8->5, 6->8 and 9->13). All those instructions, to which control could jump from instruction other than the preceding one, are called as the start of the LCSAJ.
In the above code starts of LCSAJ are: (1 (entry of the program), 5, 8 and 13).

Now find LCSAJ from each LCSAJ start. For LCSAJ starting at 1, control goes from instruction 1 to 3 and checks for the condition at step 4. If the condition is false, then code jump occurs giving the first LCSAJ, assuming all other conditions following it are true, (Initial step, branching step and destination step) (1, 4, 9). Now, the case where condition at step 4 is true, control flows from step 5 and then step 6, which is a condition statement. If that condition is false, a new LCSAJ would be formed due to jump which is (1, 6, 8). Similarly, LCSAJs (1, 8, 5) and (1, 9, 13) are also there.
Similarly, LCSAJs could be formed with every start of the LCSAJ.

100% LCSAJ Coverage implies 100% Decision Coverage. But there is a possibility of LCSAJs being infeasible while testing and also effort required for LCSAJ testing and coverage is more as compared to decision coverage.