- for(int i=t->getNumLeaves();i<t->getNumNodes();i++){
-
- int lc = t->tree[i].getLChild(); //lc = vector index of left child
- int rc = t->tree[i].getRChild(); //rc = vector index of right child
-
- /**********************************************************************/
- //This section adds in all lengths that are non leaf
-
- copyIpcount = t->tree[i].pcount;
- for (it = copyIpcount.begin(); it != copyIpcount.end();) {
- if (inUsersGroups(it->first, groups) != true) {
- copyIpcount.erase(it++);
- }else { it++; }
- }
-
- //if i's children are from the same group then i's pcount size will be 1
- //if copyIpcount.size() = 0 they are from a branch that is entirely from a group the user doesn't want
- if (copyIpcount.size() == 0) { }
- else if ((t->tree[i].getBranchLength() != -1) && (copyIpcount.size() == 1)) { UniqueBL += abs(t->tree[i].getBranchLength()); }
-
- //add i's BL to total if it is from the groups the user wants
- if ((t->tree[i].getBranchLength() != -1) && (copyIpcount.size() != 0)) {
- totalBL += abs(t->tree[i].getBranchLength());
- }
-
- /**********************************************************************/
- //This section adds in all lengths that are leaf
-
- //if i's chidren are leaves
- if (t->tree[rc].getRChild() == -1) {
- //if rc is a valid group and rc has a BL
- if ((inUsersGroups(t->tree[rc].getGroup(), groups) == true) && (t->tree[rc].getBranchLength() != -1)) {
- UniqueBL += abs(t->tree[rc].getBranchLength());
- totalBL += abs(t->tree[rc].getBranchLength());
- }
- }
-
- if (t->tree[lc].getLChild() == -1) {
- //if lc is a valid group and lc has a BL
- if ((inUsersGroups(t->tree[lc].getGroup(), groups) == true) && (t->tree[lc].getBranchLength() != -1)) {
- UniqueBL += abs(t->tree[lc].getBranchLength());
- totalBL += abs(t->tree[lc].getBranchLength());
+ int numPairsPerProcessor = numPairs / processors;
+
+ for (int i = 0; i < processors; i++) {
+ int startPos = i * numPairsPerProcessor;
+ if(i == processors - 1){
+ numPairsPerProcessor = numPairs - i * numPairsPerProcessor;