# How to be faster while deleting vector row?

This is taking way too long for what I would like to do. Any way to make this faster?

edit sorry I kept having a quality post code problem so I just posted the bare minimum.

What I am trying to do is a omaha poker equity calculator.

A-It takes the 4 cards we give him (myhand[4]) and it check with all the combination of possible hands to see if there is any duplicate.

B-If there is any duplicate, it wants to delete the row of the vector containing that hand (so when we calculate equity later on, we will not calculate against a hand that is impossible for someone to have)

``````int myhand[4] = { 3, 12, 22, 10 };
vector<vector<int> > vec(4, vector<int>(270725));
for (int m = 0; m < vec[0].size(); m++) { // A
for (int k = 0; k < 4; k++) {
for (int j = 0; j < 4; j++)
if (myhand[k] == vec[j][m]) {
for (int i = 0; i < 4; i++) {
vec[i].erase(vec[i].begin() + m); // B
}
k = 0;
j = 0;
break;
}
}
}
``````

Is there ways to be more efficient with this code ?

thanks, Kaven

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What's the point of it all? It would be really useful to know what the code is supposed to achieve on a high level to see how it best can be optimized. – Janick Bernet May 16 '13 at 17:34
It looks weird... 4 for loops for this looks like overkill – Martin Perry May 16 '13 at 17:36
transposing the matrix might improve performance. – stefan May 16 '13 at 17:47
270725 is already 4 out of 52 without order. So you at least don't need 4 vec of size() = 270725 but of size() = 52. And btw - your inner vectors just hold zeros, that's not what you need. – Solkar May 16 '13 at 17:56
Is this running too slow? If not, why are we playing with it? :) – Michael Dorgan May 16 '13 at 17:59

You're better off constructing the combinations you want to process through a loop that looks somewhat like this:

``````#include <cassert>
#include <algorithm>
#include <vector>
#include <iostream>
#include <numeric>

int main (int, char* [])
{
// Build a deck of cards
std::vector<int> deck( 52 );
std::iota( deck.begin(), deck.end(), 0 );

// Remove 'myhand'
const int myhand[] =  { 3, 12, 22, 10 };
for (int i = 0; i < 4; ++i) {
deck[myhand[i]] = -1;
}
deck.resize( std::remove( deck.begin(), deck.end(), -1 ) - deck.begin() );

// Iterate over all possible remaining entries.
size_t num_processed = 0;
for (auto c1 = deck.begin(); c1 != deck.end(); ++c1) {
for (auto c2 = c1 + 1; c2 != deck.end(); ++c2) {
for (auto c3 = c2 + 1; c3 != deck.end(); ++c3) {
for (auto c4 = c3 + 1; c4 != deck.end(); ++c4) {
// Compute equity of (*c1, *c2, *c3, *c4) here.

++num_processed;
}
}
}
}
// Verify that 48! / (44! * 4!) entries were processed.
assert ( num_processed == (48*47*46*45) / (4*3*2*1) );
return 0;
}
``````

BTW, I wrote a hold'em poker equity calculator.

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What I am doing is pretty much like this but I cannot generate random hands like this as I have to respect a certain ranking of hands if I want to calculate against a specific range(%) preflop. I will try to adapt this to my code. thank you very much. – user1853547 May 16 '13 at 18:51

Searching on a non-associative container like std::vector is too expensive.

std::set would be fine if if were just Hands to be found, but the keys in question are composite keys (4-tuples of cards) in terms of the problem domain and std::set has no special means to deal with with things like

"Find all keys that CONTAIN a certain component."

std::map would also only solve one part of the problem.

boost::bimap could be considered, but I propose a different approach:

The problem's data can be modeled by a bipartite graph (cards left, hands right, l<->r edge means "is in hand" from the "Card vertex" and "contains Card" if seen from the "Hand vertex".

Thus I would prefer using (STL-based) boost::graph over self-coded STL-based solutions.

The other practical approach would be relying on an in-memory database which could be easily created using SQLite; pls attend http://www.sqlite.org/inmemorydb.html

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Trying to answer from what i understood.

You are making `k=0` when `myhand[k] == vec[j][m]` . It breaks j for loop.

But k for loop restarts again from zero.

If it matches condition `myhand[k] == vec[j][m]` again, it keeps continuing.

Apart from this, consider using `std::find` algorithm, instead of you writing loop etc.

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