# Debugging code for linear equations with two unknowns

On a judge platform, I encountered this problem, which I had wrong answer in 3 out of the 18 tests:

In the simultaneous equations

``````ax+by=c

dc+ey=f
``````

x and y are unknowns. The coefficients a, b, c, d, e and f are integers. Each of the coefficients ranges from -2000 to 2000.

Write a program to read in the coefficients and solve for the unknowns of the corresponding simultaneous equations.

INPUT

The first and the only line contains six integers a, b, c, d, e and f separated by spaces.

OUTPUT

If there is exactly one solution, the first and the only line contains two numbers x and y, separated by a space, so that when they are substituted to the original equations, the set of simultaneous equations hold. If the set of simultaneous equations has no solution, display `no solution`. If the set of simultaneous equations has more than one solution, display `many solutions`. Assume that x and y are always integers.

So, this is my code:

``````#include<bits/stdc++.h>
using namespace std;
int det(int a,int b,int c,int d){
return a*d-b*c;
}
int main(){
int a,b,c,d,e,f,det1,detx,dety;
cin >> a >> b >> c >> d >> e >> f;
det1=det(a,b,d,e);
detx=det(c,b,f,e);
dety=det(a,c,d,f);
if(det1==0){
if(detx==0){
cout << "many solutions";
}
else{
cout << "no solution";
}
}
else{
cout << detx/det1 << ' ' << dety/det1;
}
}
``````

Can someone help me to debug this code?

• Whatever you do, never use "competition" or "judge" sites as a way to learn programming. All you really learn from such sites are really bad habits. Of which you showcase a few in the code shown to us. For example, one-letter variables without significant meaning in their names and no explanation about what they do. No comments about what the code is doing or why. That `#include`. That `using`. Commented Jan 16, 2021 at 5:11
• Have you tried stepping through the code for one wrong example input to see where it goes wrong? You can do this either using a debugger, or by inserting print statements everywhere you do a calculation, or using pen and paper. Commented Jan 16, 2021 at 5:11
• `detx/det1` can produce real numbers (float numerics). Your result is floored int. Commented Jan 16, 2021 at 5:12
• @CulverKwan: You will need to come up with an example which fails. Perhaps you can write a test function which, given the `x` and `y` values your code calculates, checks whether they actually produce equalities for both equations for a range of values. Commented Jan 16, 2021 at 5:14
• `#include<bits/stdc++.h>` is false economy. The time saved on typing is eaten up in the order of magnitude difference in the time needed to compile the entire <expletive deleted>ing Standard library every time you build. If your program works first time, every time, you might win, but after two or three rebuilds you lost. Plus it turns your code into a minefield of identifiers you aren't using. Combine that with `using namespace std;` pulling all of those identifiers into the `std` namespace where it easily collides with your code and the danger level goes way, way up. Commented Jan 16, 2021 at 5:24

My big guess is that I do not understand the question. A linear equation system with 2 unknown looks normally different.

If this is really the question, then we can do the following:

``````ax+by=c
dc+ey=f

ey = f-dc
y=(f-dc)/e

ax = c-by
= c-b((f-dc)/e)
= c-b(f-dc)/e
= c-(bf+bcd)/e
= c-bf/e+bcd/e

x = c/a-bf/(ae)+bcd/(ae)
= c/a-bf/a/e+bcd/a/e
``````

So except with "e" or "a" being 0 there is always one deterministic solution.

That is so trivial, that I am nearly persuaded that I do not understand the question.

Even with a linear dependency of a<->dc b<->e nothing would change. Mabye

``````ax+by=c
dx+ey=f
``````

was intended?