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I'm trying to play with some code..keep getting an compile error RND not declared in scope I found a part of the code that defined it if it ran on linux and if defined it on windows thus ignoring Mac users(no biggie, I would ignore them too!). I removed that part of the code and defined it using the linux settings(since I figured my Mac is more closer to linux than windows), but then I get the same error but for seed. The odd thing is those seed errors are at the same spot at the RND error was. So my question is what the heck is RND/Seed? My searches found them specific to VB but not sure if its useful since I'm using C++.

Here's an offensive code snipped(viewers discretion is advised):

mi = (int)(round(RND*(dimc-1)));

Any tips/suggestions would be great. I'm just starting to learn about c++ so I maybe missing something very simple.

Here's the entire code(stole it from here http://cg.iit.bme.hu/~zsolnai/gfx/genetic/ ):

// a fast genetic algorithm for the 0-1 knapsack problem
// by karoly zsolnai - keeroy@cs.bme.hu
// test case: 1000 items, 50 knapsack size
// compilation by: g++ genetic.cpp -O3 -ffast-math -fopenmp
#include <math.h>
#include <time.h>
#include <algorithm>
#include <vector>
#include <fstream>
#include <limits.h>

#define RND ((double)rand_r(&seed)/RAND_MAX) // reentrant uniform rnd

using namespace std;

struct chromo {
    chromo(int dimc) { items = new bool[dimc]; }
    ~chromo() { items = NULL; }
    void mutate(const int dimc, const int count) {
        int mi;
        for(int i=0;i<count;i++) {
            mi = (int)(round(RND*(dimc-1)));
            items[mi] = !items[mi];
    bool* items;
    int f;

int fitness(bool*& x, const int dimc, const vector<int>& v, const vector<int>& w, const int limit) {
    int fit = 0, wsum = 0;
    for(int i=0;i<dimc;i++) {
        wsum += x[i]*w[i];
        fit += x[i]*v[i];
    if(wsum>limit) fit -= 7*(wsum-limit); // penalty for invalid solutions
    return fit;

void crossover1p(const chromo& c1, const chromo& c2, const chromo& c3, const int dimc, const int cp) {
    for(int i=0;i<dimc;i++) {
        if(i<cp) { c3.items[i] = c1.items[i]; }
        else { c3.items[i] = c2.items[i]; }

void crossover1p_b(const chromo &c1, const chromo &c2, const chromo &c3, int dimc, int cp) {
    for(int i=0;i<dimc;i++) {
        if(i>=cp) { c3.items[i] = c1.items[i]; }
        else { c3.items[i] = c2.items[i]; }

void crossoverrand(const chromo &c1, const chromo &c2, const chromo &c3, const int dimc) {
    for(int i=0;i<dimc;i++) {
        if(round(RND)) { c3.items[i] = c1.items[i]; }
        else { c3.items[i] = c2.items[i]; }

void crossoverarit(const chromo &c1, const chromo &c2, const chromo &c3, int dimc) {
    for(int i=0;i<dimc;i++) {
        c3.items[i] = (c1.items[i]^c2.items[i]);

bool cfit(const chromo &c1,const chromo &c2) { return c1.f > c2.f; }
bool cmpfun(const std::pair<int,double> &r1, const std::pair<int,double> &r2) { return r1.second > r2.second; }

int coin(const double crp) { // a cointoss
    if(RND<crp) return 1; // crossover
    else return 0; // mutation

// initializes the chromosomes with the results of a greedy algorithm
void initpopg(bool**& c, const std::vector<int> &w, const std::vector<int> &v, const int dimw, const int limit, const int pop) {
    std::vector<std::pair<int,double> > rvals(dimw);
    std::vector<int> index(dimw,0);
    for(int i=0;i<dimw;i++) {
    int currentw = 0, k;
    for(int i=0;i<dimw;i++) {
        k = rvals[i].first;
        if(currentw + w[k] <= limit) { // greedy fill
            currentw += w[k];
            index[k] = 1;
    for(int i=0;i<pop;i++) {
        for(int j=0;j<dimw;j++) {
            c[i][j] = index[j];

int main() {
    vector<int> w, v; // items weights and values
    int info=0;
    FILE *f = fopen("1000_weights.txt","r");
    FILE *f2 = fopen("1000_values.txt","r");
    while(!feof(f) || !feof(f2) ) {
        fscanf(f," %d ",&info);
        fscanf(f2," %d ",&info);
    } // omitted fclose(f1) and fclose(f2) on purpose
    const int limit = 50; // knapsack weight limit
    const int pop = 250; // chromosome population size
    const int gens = INT_MAX; // maximum number of generations
    const int disc = (int)(ceil(pop*0.8)); // chromosomes discarded via elitism
    const int dimw = w.size();
    int best = 0, ind = 0, ind2 = 0; // a few helpers for the main()
    int parc = 0; // parent index for crossover
    double avg = 0, crp = 0.35; // crossover probability
    vector<chromo> ch(pop,chromo(dimw));
    bool **c = new bool*[pop];
    for(int i=0;i<pop;i++) c[i] = new bool[dimw];
    clock_t start = clock();
    printf("Initializing population with a greedy algorithm...");
    for(int i=0;i<pop;i++) {
        ch[i].items = c[i];
        ch[i].f = fitness(ch[i].items, dimw ,v, w, limit);

    for(int p=0;p<gens;p++) {
        std::sort(ch.begin(), ch.end(), cfit);
        #pragma omp parallel for shared(ch)
        for(int i=0;i<pop;i++) {
            if(i>pop-disc) { // elitism - only processes the discarded chromosomes
                if(coin(crp)==1) { // crossover section
                    ind = parc+round(10*RND); // choosing parents for crossover
                    ind2 = parc+1+round(10*RND);
                    // choose a crossover strategy here
//                  crossoverrand(ch[ind],ch[ind2],ch[i],dimw);
//                  crossoverarit(ch[0],ch[1],ch[i],dimw);
                    ch[i].f = fitness(ch[i].items, dimw ,v, w, limit);
                    parc += 1;
                else { // mutation section
                    ch[i].f = fitness(ch[i].items, dimw ,v, w, limit);
            avg += ch[i].f;
            if(ch[i].f>best) best=ch[i].f;
        parc = 0;
        if(p%5==0) {
            printf("best fitness: %d \t",best);
            printf("avg fitness: %f",avg/pop);
            if(best == 675) goto end; // psst...don't tell anyone
        best = avg = 0;

    clock_t end = clock();
    double t = (double)(end-start)/CLOCKS_PER_SEC;
    printf("\nCompletion time: %fs.\n",t);
    return 0;
share|improve this question
You say that you modified the code so it would define RND on your Mac - the code you posted looks like it's probably from before the modification. If you want suggestions based on the modified code you're actually asking about, that's what you should post. – Michael Burr May 21 '12 at 23:39
@MichaelBurr ok it was just removing the if statement around the linux part but your right its prob better to post it. I just updated my question to include it..thx – Lostsoul May 21 '12 at 23:42
It doesn't look like seed is defined anywhere? – Corbin May 21 '12 at 23:46
@Corbin correct..its not defined in the original code as well..thats where I'm confused..I googled it..nothing and I did a #include < and looked at the options and nothing for seed..I'm trying to figure out what rnd and seed actually are.. – Lostsoul May 21 '12 at 23:47
RND is basically an alias to plunk down the code it aliases wherever you see RND. It's a large oversimplification, but think of it like this: #define A 5 would transform: 'A*3' to '5*3' before it was actually compiled. seed is the value being passed to rand_r as the seed for the random number generation. It looks like in the original code, the seed was defined for linux and not windows. Windows must provide a global seed. Or the code doesn't compile on windows :). – Corbin May 21 '12 at 23:53
up vote 3 down vote accepted

The problem is you've inexpertly cut apart the code you've got:

#if defined(__linux) || defined(__linux__)
        unsigned int seed = time(NULL);
        #define RND ((double)rand_r(&seed)/RAND_MAX) // reentrant uniform rnd

#if defined(WIN32) || defined(_WIN32) || defined(__WIN32__)
        #define RND ((double)rand()/RAND_MAX) // uniform rnd

This defines the seed variable based on the current time for Linux systems; perhaps the Windows systems do not need a seed?

In any event, if you include both lines from the if defined (__linux) ... branch, instead of only one line, it should work without trouble on your OS X system.

share|improve this answer

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