# Discrete Math to c++

I'm not sure if I should be asking here or on the math site but I'll give it a shot here. Heres the assignment: A user enters 10 numbers which is the domain D. I need to evaluate the statement: `For All x, y in D, x<y or y <2x`. My question, what is x and what is y? If I enter 1 2 3 4 5 6 7 8 9 10 as the domain does x =1, y =2 and so on? Do I check if 1 < 2 || 2 <2(1)?

I coded three other statements that only used 'x' but have no clue out of the ten numbers entered which is x and which is y. And it doesn't call for the user to enter a x and y just ten integers.

I'll post the code for the other statements I did.

``````using std::cout;
using std::cin;

void ASearch(int arr[], int);
void BSearch(int array[], int size);
void CSearch(int array[], int size);

int main(int argc, const char * argv[])
{
const int SIZE = 10;
int NumArray[10];
int num = 0;
int count = 0;

while (count < 10)
{
cout << "Enter Number "<< count + 1 <<": ";
cin >> NumArray[count];
++count;

}

/*if(!isdigit(num))
{

for (int i = 0; i < 9; ++i)
{

cout << "Enter Number "<< i + 2 <<": ";
cin >> NumArray[i];

}
}else cout << "Error: numbers only";*/

for(int j = 0; j < SIZE; ++j)
{
cout << " " << NumArray[j];
}

ASearch(NumArray, SIZE);
BSearch(NumArray, SIZE);
CSearch(NumArray, SIZE);

return 0;
}

void ASearch(int arr[], int size)
{
int pos = 0;
int on = -1;
int oddTrue = 0;
int oddFalse = 0;

while (on == -1 && pos < size)
{
cout << " \nchecking: " << arr[pos];

if (arr[pos] % 2 != 0 && arr[pos] > 0)
{

cout <<"\nTrue: " <<arr[pos] << " is > 0 and odd";
++oddTrue;

}
else if(arr[pos] % 2 != 0 && arr[pos] < 0)
{
cout <<"\nFalse" << arr[pos] << "is < 0 and odd";
++oddFalse;

}
else cout << "\nNumber is even";
++pos;

}
if (oddFalse > 0) cout<< "\n>>>>>>>>>A is FALSE";else cout <<"\n>>>>>>A IS TRUE";
return;
}

void BSearch(int array[], int size)
{
int on = -1;
int pos = 0;
int count = 0;

while(on == -1 && pos < size)
{
cout << "\n checking "<<array[pos];

if(array[pos] % 2 != 0  && array[pos] > 10)
{
cout << "\nTrue: " << array[pos] <<" is > 10 & odd";
++count;

}else
{
cout <<"\nFalse";
--count;
}
++pos;
}
if(count > 1 ) cout << "\n>>>>>>>>>>B IS TRUE"; else cout <<"\n>>>>>>>>>B IS FALSE";
return;
}

void CSearch(int array[], int size)
{
int pos = 0;
int on = -1;
int TrueCount = 0;
int FalseCount = 0;

while (on == -1 && pos < size)
{
cout << "\n checking "<<array[pos];

if(array[pos] % 2 == 0  || array[pos] % 3 == 0)
{
cout << "\nTrue: " << array[pos] <<" is divisible by 2 or 3";
++TrueCount;

}
else if(array[pos] % 2 != 0  || array[pos] % 3 != 0)
{
cout <<"\nFalse";
++FalseCount;
}
++pos;

}

if (TrueCount < 10)
cout << "\n>>>>C is FALSE"; else cout << "\n>>>>>>>>>>C is TRUE";

}
``````
-
The statement is `For All x, y in D, x`? That makes no sense. Could you double-check? –  Beta Mar 24 '13 at 23:53
@Beta I can't write the universal and existential quantifiers. Here: Ax, yeD, x<y or y<2x. pretend the A is upside down and the 'e' is the element symbol –  rogerthat Mar 24 '13 at 23:59
I.e ∀(x,y) ∈ D | x<y ∨ y<2·x –  MSalters Mar 25 '13 at 9:34
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## 1 Answer

It means that both x and y can take on every value in the set D.

In pseudocode:

``````for i = 1:10
for j = 1:10
x = D[i]
y = D[j]
test x < y OR y < 2 * x
loop
loop
``````
-
ok. Thanks so much. I couldn't understand it. So if I had x^2 + y^2 = z^2 then x, y and z would take on every number in the set as well? –  rogerthat Mar 25 '13 at 0:05
@healix: Whenever you see a "forall", you're going to need to test the entire set. (or else use analytical methods in your proof instead of brute force testing) –  Ben Voigt Mar 25 '13 at 1:06
I'm not sure if `x==y` is implied. Yet that would be the case when `i==j`. Now obviously `x < 2*x` so it doesn't matter in this particular case. –  MSalters Mar 25 '13 at 9:30
@MSalters: I would expect to see `x /= y` explicitly stated in the forall, if that case were meant to be excluded. –  Ben Voigt Mar 25 '13 at 13:37
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