0

Since I cannot answer my own question in 8 hours after asking, I'm posting my solution here.

Made some mistakes in the incoming channel number and number of the vector element. Setting the value of channel-1 instead of channel fixed to problem.

My new function is as follows:

void input(long inlet, t_symbol *s, long ac, t_atom *av){
    // GET VARIABLES
    long channel = atom_getlong(av);
    double value = atom_getfloat(av + 1);
    long v_size = v_chan.size();
    if(channel && v_size < channel){
        for(int i = v_size; i < channel; i++){
            v_chan.push_back(n_chan);
        }
        v_chan[channel - 1].value = value;
    }
    else if(channel){
        v_chan[channel - 1].value = value;
    }
}

I've got a vector containing structs, which I like to push_back with a new, empty struct.
Example code:

struct channels{
  double value;
  // eventually more variables
};

vector<channels> v_chan;
channels n_chan;

void push(){
  v_chan.push_back(n_chan);
}

The problem is, if my vector contains elements, push_back add an element, but also overwrites the last element.

For example, if my vector size is 1 and element 0 has a value of 0.2, after push_back my vector size is 2, but element 0 and 1 have a value of 0.

What am I doing wrong here?

Real Code: (MAX/MSP external, function input is called in Max)

#include <maxcpp6.h>
#include <string>
#include <algorithm>
#include <vector>

using namespace std;

struct bind{
    string param;
    double* value;
    int track;
    double base;
    double multiplier;
};

struct channels{
    double value;
    vector<int> bind;
};

vector<channels> v_chan;
vector<bind> v_bind(19);
channels n_chan;

class rec : public MaxCpp6<rec> {
public:
rec(t_symbol * sym, long ac, t_atom * av) {
    setupIO(1, 1); // inlets / outlets
}
~rec() {}

// methods:


//SET BIND FUNCTION
void setBind(long inlet, t_symbol *s, long ac, t_atom *av){
}

void output(long track, long type){

}

void input(long inlet, t_symbol *s, long ac, t_atom *av){
    // GET VARIABLES
    long channel = atom_getlong(av);
    double value = atom_getfloat(av + 1);
    long v_size = v_chan.size();
    if(v_size <= channel){
        v_chan.push_back(n_chan);
    }
    else{
        v_chan[channel].value = value;
    }
}

void dump(long inlet){
    for(int i = 1; i <= v_chan.size(); i++){
        post("%d %.2f", i, v_chan[i].value);
    }
}

    void clearTrackBinds(long inlet){

    }

    void reset(long inlet){
        clearTrackBinds(0);
    }
};

C74_EXPORT int main(void) {
    // create a class with the given name:
    rec::makeMaxClass("solar_receiver");
    REGISTER_METHOD_GIMME(rec, input);
    REGISTER_METHOD_GIMME(rec, setBind);
    REGISTER_METHOD(rec, dump);
    REGISTER_METHOD(rec, clearTrackBinds);
    REGISTER_METHOD(rec, reset);
}
6
  • 4
    What you are doing wrong is that you are not showing us the real code. Create a SSCCE. Oct 20, 2013 at 11:24
  • Added, but it's not self contained since the code is for a Max external. The variables channel and value are received from Max, main function only registers the other functions so Max can use them. Oct 20, 2013 at 11:36
  • Without a self-contained example, we can't see what else is going on! As Daniel stated: you'll need to create an SSCCE! Oct 20, 2013 at 11:39
  • The real code is now a direct copy-paste. I can't provide anything else because it's for a Max external. You can compile it, but you'll be unable to run it except if you have Max/MSP. Oct 20, 2013 at 11:48
  • @user2899919 Instead of direct copy-paste, you are allowed to write different code which reproduces the problem. That is typically what a SSCCE is: "I encountered a problem in my big complex code base which I cannot show you - so I wrote a small test program which exhibits the same problem, and which I can show"
    – jalf
    Oct 20, 2013 at 11:57

0

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Browse other questions tagged or ask your own question.