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# Finding Mode of Vector of Ints in C++

So I'm trying to make a basic program to learn the basics of C++, I'm generating 100 random numbers from 0 to 100 and storing them in a vector, I am then displaying the sum, mean, median, mode, high and low of the vector. I have everything else done except the mode which is where I get stuck. Here is the code I have so far.

``````int modeFunction()
{
numMode = 0;
count = 0;
for (int n = 0; n < 100; n++)
{
for (int y = 0; y < 100; y++)
{
if (numVector.at(y) == numVector.at(n))
{
numMode = numVector.at(y);
count++;
}
}

}
return numMode;
}
``````

After that I get stuck because in my mind that should work but it doesn't. It just out puts the last number, usually 100. Any help would be much appreciated.

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if `myVector` is a `std::vector<int>` (seems like it atleast), you can index it like an array: `myVector[y]` and `myVector[n]` will yield the same as the `myVector.at` version, but looks nicer imho. :) – Xeo Mar 25 '11 at 22:35
@Xeo: the difference being that `at` has defined behaviour when the index is out of range. Arguably `operator[]` is a micro-optimization, although as you say it's also a bit of a style difference. – Steve Jessop Mar 25 '11 at 22:50
@Steve: Ah, thanks for that tidbit. :) Didn't bother with `at` yet, but a normal array also has undefined behaviour for out of range access, though it certainly is nice to have defined behavious when you need it. :) – Xeo Mar 25 '11 at 22:57
@Xeo: to be honest, I never use `at` myself. I occasionally wonder whether I should, but in practice I never write code that I want to throw an exception when the index is out of bounds, so it only serves as a debugging assist, it "should" never happen. Despite calling it a micro-optimization, it's a reasonable amount of redundant code, so in the end if I want bounds-checking I just switch to Python ;-) – Steve Jessop Mar 25 '11 at 23:02

since all the values are between 0 and 100, you can find the mode efficiently with a histogram:

``````std::vector<int> histogram(101,0);
for( int i=0; i<100; ++i )
++histogram[ numVector[i] ];
return std::max_element( histogram.begin(), histogram.end() ) - histogram.begin();
``````
-

Since mode is the number that occurs most frequent you shouldn't change `numMode` unless the new number's count is greater than `numMode`'s count.

EDIT: To clarify, you need to keep a separate count for the current element and the current number that you think is the mode. Ideally, setting `newMode` to the first element is a good approach.

In addition, mode isn't necessary unique (i.e. "1 1 2 2"). You may want to keep that in mind if you care about that.

``````newMode = element[0]
modeCount = # of occurrence of newMode

for ( i-th element from [1 to end] ) {
tmpCount = # of occurrence of element[i]
if tmpCount > modeCount {
newMode = element[i]
modeCount = tmpCount
}
}
``````
-

Alternative solutions. Note: untested.

``````int mode1(const std::vector<int>& values)
{
int old_mode = 0;
int old_count = 0;
for(size_t n=0; n < values.size(); ++n)
{
int mode = values[n];
int count = std::count(values.begin()+n+1, values.end(), mode);

if(count > old_count)
{
old_mode = mode;
old_count = count;
}
}
return old_mode;
}

int mode2(const std::vector<int>& values)
{
return std::max_element(values.begin(), values.end(), [](int value)
{
return std::count(values.begin(), values.end(), value);
});
}
``````
-

Your algorithm is wrong - it outputs the last number in the array because that's all it can ever do. Every time the number at index `y` matches the number at index `n` you overwrite the results for the previous `n`. Since you're using the same loop conditions, `y` and `n` are always the same at at least one point in the nested loop for each possible `n` value - and you'll always end up with `numMode` being `numVector.at(99)`.

You need to change your algorithm to save the count for each `n` index along the way (or at least which `n` index ended up with the greatest `count`), so that you can know at the end of the `n` loop which entry occured the most times.

-

Mode means a number with highest frequency. The logic should be -

``````//Start of function

int mode = 0, globalCount = 0 ;
// Start of outer for loop
for i = 0 to length - 1
int localCount = 0

// Start of inner for loop
for j = 0 to length - 1
if vec[i] == vec[j]
++localCount
// End of Inner for loop

if ( localCount > globalCount )
globalCount = localCount
mode = vec[i]
// End of outer for loop

if globalCount > 1 // This should be checked whether vec has repetitions at all
return mode
else
return 0

// End of function
``````
-
@Cistoran - The logic can be even better improving efficiency but this is what the algorithm should be according to your thought process. – Mahesh Mar 25 '11 at 22:57

bmcnett's approach works great if number of elements are small enough. If you have large number of elements but the all element value are with in a small range using map/hashmap works well. Something like

``````typedef std::pair<int, int> mode_pair;

struct mode_predicate
{
bool operator()(mode_pair const& lhs, mode_pair const& rhs)
{
return lhs.second < rhs.second;
}
};

int modeFunction()
{
std::map<int, int> mode_map;
for (int n = 0; n < 100; n++)
mode_map[numVector[n]]++;
mode_predicate mp;
return std::max_element(mode_map.begin(), mode_map.end(), mp)->first;
}
``````
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