# “no matching function for call to 'Map<Flat>::functionname”

I am trying set up the flat space environment for the Travelling Salesman. This is my attempt:

``````#include <iostream>
using namespace std;
#include<stdlib.h>
#include <cstdlib>
#include <cmath>
class Base        //Allocate the memory space
{
protected:
int n;
typedef double Coord[2];
Coord* city_location;

Base(int ncities) : n(ncities), city_location(new Coord[n]) {}
~Base() { delete [] city_location; }
};

template <class T> class Map;

struct Flat;
template <> class Map<Flat> : public Base
{
public:
//int Path[n];
Map(int n) : Base(n)
{
int Path[n];             //Populate with random points for flat version
for (int i=0;i<n;i++)
{
city_location[i][0] = (static_cast <float> (rand()) / static_cast <float> (RAND_MAX))*80;
city_location[i][1] = (static_cast <float> (rand()) / static_cast <float> (RAND_MAX))*80;
Path[i] = i;
cout << "city " << i << " is at (" << city_location[i][0] << "," << city_location[i][1] << ")\n";
}

cout << "\nThe initial path is (";

for(int i=0;i<n;i++)
{
cout << Path[i]<< " ";
}
cout<< Path[0] <<")"<<endl;

pathdistance(Path, n, city_location);   //Line 45

}

double distance(int i, int j) const       //Pairwise distance function
{
double dx = city_location[i][0] - city_location[j][0];
double dy = city_location[i][1] - city_location[j][1];
return sqrt(dx*dx+dy*dy);
}

double pathdistance(double Path[],int n, double city_location)  //total distance function
{
//cout<< city_location[0][1];
double total = 0;
for(int i=0; i<n-1;i++)
{
total += distance(Path[i],Path[i+1]);

}
total += distance(Path[n],Path[0]);

cout << "total distance is "<< total<<endl;
}

};

int main()
{
srand(1235);
Map<Flat> x(10);
cout << "distance between cities 3 and 7 is " << x.distance(3,7) << "\n";
}
``````

I get the error msg:

`````` 45 error: no matching function for call to 'Map<Flat>::pathdistance(int [(((sizetype)(((ssizetype)n) + -1)) + 1)], int&, Base::Coord)'
``````

I know that it has to do with how I pass the pointer but I can't seem to figure out the correct way to do it. Apologies if this looks very ugly to most of you but I'm very new to C++. Go easy on me. Thanks in advance.

• Could you properly format your code, please? It would be less confusing. – alain Feb 24 '15 at 17:42
• You use city_location like a 2D array, but pathdistance is expecting a constant. – HughB Feb 24 '15 at 17:49
• `int Path[n];` Non-standard C++ alert. You cannot declare arrays using a variable as the number of entries. Your compiler is allowing it, but it is non-standard. Use `std::vector<int>` instead if you want standard conformance. – PaulMcKenzie Feb 24 '15 at 17:55

Line 45 : The function pathdistance is being called. It asks for certain types of parameters that aren't matching with the arguments you are providing to it :

``````double pathdistance(double Path[],int n, double city_location)
``````

in the constructor of map, where the line 45 is ...

pathdistance ask for his 3rd parameter to be a `double`, but city_location is a `*Coord`, or more precisely, a `*double[2]`

same for Path : the function asked for a `double[]`, but received a `int[]`

First, the function signature of `pathdistance`

``````double pathdistance(double Path[],int n, double city_location);
``````

doesn't conform to C++ standard. `double Path[]` isn't kosher.

As far as your error message goes:

`````` 45 error: no matching function for call to 'Map<Flat>::pathdistance(int [(((sizetype)(((ssizetype)n) + -1)) + 1)], int&, Base::Coord)'
``````

I can immediately tell (without even looking at your source code) that the last argument `city_location` is of type `Base::Coordinate`, but your function definition requires it to be a double.

Here is a small program in C that treats the Travelling Salesman Problem. It is based on the branch-and-bound algorithm. To generate the tree two data structures are used : a stack and a circular queue. For the purpose of testing, the connection matrix is generated randomly. The departure city is 1.The initial solution is 1-n. But in practice, using a solution produced by a heuristic algorithm would improve very much the program.

``````#include <stdio.h>
int queue[100], stack[100], alt[100], v[100];
int main()
{
printf("Number of cities:");
scanf( "%d",&n);
printf("Max Segment:");
scanf( "%d",&module);
printf("Seed:");
scanf( "%d",&g);
srand(g);
// Generating the sysmetric connection matrix randomly
for (i=0   ; i<n ; i++) {
for (j=i+1 ; j<n ; j++) {
map[i][j]= rand() % (module+1);
map[j][i]=map[i][j];
}
for (j=0 ; j<n ; j++) printf("%3d ",map[i][j]);
printf("\n");
}
for (i=0 ; i<n ; i++) {
queue[i]=i;
}
// Set route length to high value
path=module*n;
stack[0]=queue[0];
alt[0]=0;
printf("running...\n");
sp=0;
tail=n-1;
s=0;
// Explore a branch of the factorial tree
while(1) {
while(sp<n-1 && s<path)  {
sp++;
s=s+map[stack[sp]][stack[sp-1]];
alt[sp]=n-sp-1;
}
// Save a better solution
if (s+map[stack[sp]][stack[0]]<path) {
path=s+map[stack[sp]][stack[0]];
for (i=0 ; i<n ; i++) v[i]=stack[i]+1;
}
// Leaving nodes when there is no more  branches
while (alt[sp]==0 && sp>=0) {
tail++; if (tail==n) tail=0;
queue[tail]=stack[sp];
s=s-map[stack[sp]][stack[sp-1]];
sp--;
}
// If Bottom of stack is reached then stop
if (sp<0) break;
tail++; if (tail==n) tail=0;
queue[tail]=stack[sp];
s=s-map[stack[sp]][stack[sp-1]];
// Explore an alternate branch
alt[sp]=alt[sp]-1;
s=s+map[stack[sp]][stack[sp-1]];
}
printf("best route=%d\n",path);
for (i=0 ; i<n ; i++) printf("%d ",v[i]);
printf("%d\n",stack[0]+1);
return 0;
}
``````

Now lets run the progam for n=10.

``````[oldache@localhost ~]\$ ./bnb
Number of cities:10
Max Segment:345
Seed:4
0 199 171 200 244 241  95  71  71 274
199   0  15 114 252  72 238   7 258 118
171  15   0 237 305 343 151  28 274 191
200 114 237   0 197 158 198 216 342  76
244 252 305 197   0 292 147 248  98  45
241  72 343 158 292   0  95 194 116 167
95 238 151 198 147  95   0 122  83 233
71   7  28 216 248 194 122   0  28 155
71 258 274 342  98 116  83  28   0 126
274 118 191  76  45 167 233 155 126   0
running...
best route=735
1 7 5 10 4 6 2 3 8 9 1
``````
• -1 Could have been a great answer to some other question, but it's only associatively related to this question. Why not post an implementation in Python? Since the question is tagged C++, and is about a detail in the OP's code. – Cheers and hth. - Alf Mar 20 '15 at 20:06