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// template class data implementation;
#ifndef BASE_CPP
#define BASE_CPP
#include "base.h"
base::base()
{
pthread_mutex_init (&mut_vec_elem, NULL );
}
base::~base( )
{
pthread_mutex_destroy( &mut_vec_elem );
}
void
base::add_elem( name* p_name )
{
pthread_mutex_lock ( &mut_vec_elem );
vec_elem.push_back ( p_name );
pthread_mutex_unlock( &mut_vec_elem );
}
bool
base::del_elem( string &s_name )
{
vector<name*>::iterator iter;
pthread_mutex_lock ( &mut_vec_elem );
iter = vec_elem.begin();
while( iter != vec_elem.end() )
{
if ( (*iter)->get_name() == s_name )
{
vec_elem.erase( iter );
pthread_mutex_unlock( &mut_vec_elem );
return true;
}
iter++;
}
pthread_mutex_unlock( &mut_vec_elem );
return false;
}
name*
base::get_elem( string &s_name, bool &b_found )
{
vector<name*>::iterator iter;
pthread_mutex_lock ( &mut_vec_elem );
iter = vec_elem.begin();
while( iter != vec_elem.end() )
{
if ( (*iter)->get_name() == s_name )
{
b_found = true;
pthread_mutex_unlock( &mut_vec_elem );
return (*iter);
}
iter++;
}
pthread_mutex_unlock( &mut_vec_elem );
b_found = false;
return new name();
}
void
base::run_func( void (*func)(name*, void*), void* v_arg )
{
vector<name*>::iterator iter;
pthread_mutex_lock ( &mut_vec_elem );
// execute func foreach element of vec_elem with
// 1st argument: a pointer of a element of vec_elem.
// 2nd argument: a void pointer of a object.
for( iter = vec_elem.begin(); iter != vec_elem.end(); iter++ )
( *func ) ( (*iter), v_arg );
pthread_mutex_unlock( &mut_vec_elem );
}
#endif
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