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I have some problems with C++. I build application using GAlib library (it's a C++ Library of Genetic Algorithm Components - http://lancet.mit.edu/ga/).

In one of examples (full code of example: http://lancet.mit.edu/galib-2.4/examples/ex6.C) author create function that initializes tree:

void TreeInitializer(GAGenome & c)
  GATreeGenome<int> &child=(GATreeGenome<int> &)c;

// destroy any pre-existing tree

// Create a new tree with depth of 'depth' and each eldest node containing
// 'n' children (the other siblings have none).
  int depth=2, n=2, count=0;

  for(int i=0; i<depth; i++){
    for(int j=0; j<n; j++)

He invoke function in that way:


and He don't pass an argument. When I trying pass argument to that function by changing declaration for example:

void TreeInitializer(GAGenome &, int deph);

Compiler shows me errors. I don't know how to invoke this function properly. I know it's related to reference but passing (or not passing) argument in that way is new to me.

How to pass more arguments to that function?

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He is passing a pointer to the function. genome.initializer takes the pointer and calls the function as many times as it needs to. If you want the function to accept more arguments, you need to first change the type (signature) of the expected function (something like void (*f)(GAGenome&, int)), and then every time the initializer calls f, pass an extra argument. –  riv Nov 27 '13 at 16:55

2 Answers 2

up vote 2 down vote accepted

The line genome.initializer(TreeInitializer); does not call TreeInitializer - instead, it passes the pointer to that function to genome.initializer, so it can call it with whatever arguments it needs/multiple times. If you want TreeInitializer to accept more arguments, you need to modify the initializer to accept a different type of function. It is probably defined as

void initializer(void (*f)(GAGenome&))
    // ...
    // ...

You need to change the argument type to void (*f)(GAGenome&, int) and change the lines that call f.

On the other hand, if you can't modify the initializer function but want to be able to specify the depth, then the best you can do is make a global variable that you set to whatever depth you need and have TreeInitializer use that variable. It isn't a clean solution if you think global variables are evil, but it's your only choice if the initializer doesn't let you supply any "context".

share|improve this answer
I have more variables to pass so I didn't want use global variables but know I think is the quickest way. I found in library code this: <code>typedef void (*Initializer)(GAGenome &);</code> and further <code> void initialize(){_evaluated=gaFalse; _neval=0; (*init)(*this);} Initializer initializer() const {return init;} Initializer initializer(Initializer op){return (init=op);} </code> So it's little difrent between this and your example. What should I change? –  Mr Jedi Nov 27 '13 at 17:50
If you really want to modify the library code to allow you to pass an extra argument (up to you to figure out if it makes much sense), then you need to add a second argument to the typedef (typedef void (Initializer)(GAGenome&,int)), then add an int member to the class, make a way to set it (probably from the initializer function), and have initialize() call (*init)(*this, value), where value is the member variable you added. –  riv Nov 27 '13 at 18:37

What you what to do in

GATreeGenome<int> &child=(GATreeGenome<int> &)c;

is a casting from a GAGenome to GATreeGenome . If you haven't a casting operator for this case, it won't work...

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The cast will work even if a conversion operator is not provided. Your answer does not address the actual question. -1. –  Captain Obvlious Nov 27 '13 at 17:23
Why? GATreeGenome<int> and GaGenome are two different classes. –  peterh Nov 27 '13 at 17:56
Casting to an unrelated type will result undefined behavior but the cast will still be performed. If GATreeGenome<int> derives GaGenome a static_cast is used otherwise reinterpret_cast will be used. class Foo {}; class Bar {}; const Bar& ptr = (Bar&)Foo(); // cast still happens. –  Captain Obvlious Nov 27 '13 at 18:43
Yes, it is so if we cast pointers to another pointer of a different type. But here aren't pointers. Try to compile this: class A { int x; short z; }; class B { int y; char* s; }; int main() { A a; B b=a; } // g++ gives error "t.cc:13:6: error: conversion from 'A' to non-scalar type 'B' requested" –  peterh Nov 28 '13 at 8:45

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