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I recently started with C++; I'm an hobby programmer, and I know a bit of Python.

I programmed a little snake. I wanted to insert another snake guided by the computer.

I decided to put the possible direction that the snake can take in an enum:

enum directions{UP, DOWN, RIGHT, LEFT, IN, OUT, FW, RW,NONE};

void fill_map(std::map<directions,V4> &map_vec);

void fill_map(std::map<int, directions*> &map_dir);

void fill_map(std::map<directions,directions> &map);

and map the enum for the needed function:

void fill_map(std::map<directions,V4> &map_vec){
    map_vec[UP] = V4(0,1,0,0);
    map_vec[DOWN] = V4(0,-1,0,0);


 void fill_map(std::map<directions, directions> &map){
    map[UP]= DOWN;
    map[DOWN]= UP;

void fill_map_axis(std::map<int, directions*> &map_dir){
    directions array_x[2] = {RIGHT,LEFT};
    map_dir[0] = array_x;

    directions array_y[2] = {UP,DOWN};//store the array
    map_dir[1] = array_y;

    directions array_z[2] = {FW,RW};//store the array
    map_dir[2] = array_z;

    directions array_w[2] = {IN,OUT};//store the array
    map_dir[3] = array_w;


The fill_map functions are called in the snake constructor.
Basically what I wanted to do in the fill_map_axis is to map an integer corresponding to the index of the coordinate (0 coord x, 1 coord y etc) and map the two directions that move along those axis. So I stored an array of two directions.

Now I call the function:

directions SnakeCPU::find_dir(V4 point){
    //point is the target point
    directions dir;
    int index = get_coord_index(point); //get the index where to move
    double diff = head_pos[index]-point[index]; //find the difference between the head and the target point

    directions* axis = dir_coords[index]; //call the map containing the directions stored in an array.


        dir = *axis; //use the first
    else if(diff>0.) {
        dir = *axis; //use the second
        dir = NONE;

    return dir;

Although the map are initialized in the Snake constructor, it seems that the returned value from the pointer axis is a random memory block.

So my question: do you see a mistake in the code? did I used the pointer axis with sense?

I'm really not expert with pointer; in Python the map is instantiated with a dictionary like this:

dir_coords = {0:[LEFT,RIGHT], ...}

so I just need to call it:

axis = dir_coords[index]
dir = axis[0]
dir = axis[1]


Snake constructor:

    head_pos = V4(0.,0.,0.,0.);
    //other stuff...
share|improve this question
Your array_x etc. are local variables, and you are only inserting a pointer to those arrays. After the function scope exits, those pointers are no longer valid. In short, everything is udders up. I recommend storing a std::pair<direction, direction> in your map. –  Kerrek SB Sep 19 '11 at 22:31
Where is the code for the SnakeCPU constructor? –  tyree731 Sep 19 '11 at 22:33
What are head_pos[] and point[]? Also, axis++; dir = *axis; can be replaced with dir = '*(++axis); –  BlackJack Sep 19 '11 at 22:34
@Kerrek, make that an answer. –  Mooing Duck Sep 19 '11 at 22:35
I thought, good :D what is a std::pair? and I call it like pair[0] and pair[1]? –  Pella86 Sep 19 '11 at 22:35

2 Answers 2

up vote 3 down vote accepted

Just a shot in the blue, here is how I would design this.

#include <map>

enum EDirection { NONE = 0, UP, DOWN, RIGHT, LEFT, IN, OUT, FW, RW };

typedef std::map<EDirection, V4>           DirectionMap;
typedef std::pair<EDirection, EDirection> DirectionPair;
typedef std::map<int, DirectionPair>            PairMap;

extern const DirectionMap map_vec {
  { UP,   (0, 1, 0, 0) },
  { DOWN, (0,-1, 0, 0) },
  // ...
};   // using C++11 initialization lists for convenience

extern const PairMap map_dir {
  { 0, { RIGHT, LEFT } },
  { 1, { UP, DOWN }    },
  // ...

Here I decided to make map_vec and map_dir global constants, because I gathered that that's essentially what they are. To initialize those, I rely on the new C++11 initialization syntax. If that's not an option, we can also fill the map in the traditional way:

PairMap map_dir;
map_dir.insert(std::make_pair(0, DirectionPair(RIGHT, LEFT)));
map_dir.insert(std::make_pair(1, DirectionPair(UP, DOWN)));
// ...

DirectionMap map_vec;
map_vec.insert(std::make_pair(UP,   V4(0, 1, 0, 0)));
map_vec.insert(std::make_pair(DOWN, V4(0,-1, 0, 0)));
// ...

(Yes, you can also write map_dir[0] = DirectionPair(RIGHT, LEFT)'. I don't like the square brackets, though, they feel too violent for my taste.)

share|improve this answer
I like the form map["key"]=value is like python ;) and thx again for the help! –  Pella86 Sep 19 '11 at 23:14
@Pella86: no problem. Let me know if you have any problems with those constructions :-) The square brackets are non-const and cause elements to be inserted if they're missing, so I feel reluctant to use those, but of course here we want to create elements, so I'm overly panicked for no reason. –  Kerrek SB Sep 19 '11 at 23:24
good to know I didn't thought about the possible drawback! but anyway the problem is solved (now the cpu snake is faster than me... and damn it I'm loosing like every round...) –  Pella86 Sep 19 '11 at 23:28

As Kerrek said, you filled map_dir with automatic scoped variables, which means they are automatically destroyed when the function ended.

void fill_map_axis(std::map<int, directions*> &map_dir){
    //This variable will be destroyed when the function ends
    directions array_x[2] = {RIGHT,LEFT};  
    map_dir[0] = array_x; //should have a warning at least, probably not compile

What you probably want is actual directions in the map

void fill_map_axis(std::map<int, std::pair<directions, directions> > &map_dir){
    //This variable will be destroyed when the function ends
    std::pair<directions, directions> array_x = {RIGHT,LEFT};  
    map_dir[0] = array_x; //makes a copy
share|improve this answer
That last assignment doesn't seem to make sense: array_x is an array, not a directions. –  Kerrek SB Sep 19 '11 at 22:56
yup. I kept thinking it was a pointer to a single directions, and partially coded as such. –  Mooing Duck Sep 19 '11 at 23:35

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