/usr/include/rheolef/stack_allocator.h is in librheolef-dev 6.7-6.
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/// This file is part of Rheolef.
///
/// Copyright (C) 2000-2009 Pierre Saramito <Pierre.Saramito@imag.fr>
///
/// Rheolef is free software; you can redistribute it and/or modify
/// it under the terms of the GNU General Public License as published by
/// the Free Software Foundation; either version 2 of the License, or
/// (at your option) any later version.
#ifndef _RHEOLEF_STACK_ALLOCATOR_H
#define _RHEOLEF_STACK_ALLOCATOR_H
///
/// Rheolef is distributed in the hope that it will be useful,
/// but WITHOUT ANY WARRANTY; without even the implied warranty of
/// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
/// GNU General Public License for more details.
///
/// You should have received a copy of the GNU General Public License
/// along with Rheolef; if not, write to the Free Software
/// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
///
/// =========================================================================
//
#include <memory>
#include <limits>
#include "rheolef/compiler.h"
#include "rheolef/pretty_name.h"
namespace rheolef {
/*Class:man
NAME: stack_allocator - stack-based allocator
DESCRIPTION:
Stack-based allocator, conform to the STL specification of allocators.
Designed to use stack-based data passed as a parameter to the allocator constructor.
Does not "free" the memory.
Assumes that if the allocator is copied, stack memory is cleared and new allocations begin
at the bottom of the stack again.
Also works with any memory buffer, including heap memory. If the caller
passes in heap memory, the caller is responsible for freeing the memory.
This allocator handles a limited area of memory: if this limit is reached,
a "std::bad_alloc" exception is emmited.
For a non-limited memory handler in the same spirit, see "heap_allocator"(9).
EXAMPLE:
@example
const size_t stack_size = 1024;
vector<unsigned char> stack (stack_size);
stack_allocator<double> stack_alloc (stack.begin().operator->(), stack.size());
typedef map <size_t, double, less<size_t>, stack_allocator<pair<size_t,double> > > map_type;
map_type a (less<size_t>(), stack_alloc);
a.insert (make_pair (0, 3.14));
a.insert (make_pair (1, 1.17));
for (map_type::iterator iter = a.begin(), last = a.end(); iter != last; iter++) @{
cout << (*iter).first << " " << (*iter).second << endl;
@}
@end example
SEE ALSO: "heap_allocator"(9).
AUTHORS:
LJK-IMAG, 38041 Grenoble cedex 9, France
| Pierre.Saramito@imag.fr
DATE: 15 december 2010
End:
*/
//<begin_verbatim:
template <typename T>
class stack_allocator {
protected:
struct handler_type; // forward declaration:
public:
// typedefs:
typedef size_t size_type;
typedef std::ptrdiff_t difference_type;
typedef T* pointer;
typedef const T* const_pointer;
typedef T& reference;
typedef const T& const_reference;
typedef T value_type;
// constructors:
stack_allocator() throw()
: handler (new handler_type)
{
}
stack_allocator (unsigned char* stack, size_t stack_size) throw()
: handler (new handler_type (stack, stack_size))
{
trace_macro ("stack_allocator cstor");
}
stack_allocator (const stack_allocator& sa) throw()
: handler (sa.handler)
{
++handler->reference_count;
}
template <typename U>
stack_allocator (const stack_allocator<U>& sa) throw()
: handler ((typename stack_allocator<T>::handler_type*)(sa.handler))
{
++handler->reference_count;
}
~stack_allocator() throw()
{
trace_macro ("stack_allocator dstor");
check_macro (handler != NULL, "unexpected null mem_info");
if (--handler->reference_count == 0) delete handler;
}
// Rebind to allocators of other types
template <typename U>
struct rebind {
typedef stack_allocator<U> other;
};
// assignement:
stack_allocator& operator= (const stack_allocator& sa)
{
handler = sa.handler;
++handler->reference_count;
return *this;
}
// utility functions:
pointer address (reference r) const { return &r; }
const_pointer address (const_reference c) const { return &c; }
size_type max_size() const { return std::numeric_limits<size_t>::max() / sizeof(T); }
// in-place construction/destruction
void construct (pointer p, const_reference c)
{
// placement new operator:
new( reinterpret_cast<void*>(p) ) T(c);
}
// C++ 2011: default construct a value of type T at the location referenced by p
void construct (pointer p) { new ( reinterpret_cast<void*>(p) ) T(); }
void destroy (pointer p)
{
// call destructor directly:
(p)->~T();
}
// allocate raw memory
pointer allocate (size_type n, const void* = NULL)
{
trace_macro ("allocate "<<n<<" type " << typename_macro(T));
check_macro (handler->stack != NULL, "unexpected null stack");
void* p = handler->stack + handler->allocated_size;
handler->allocated_size += n*sizeof(T);
if (handler->allocated_size + 1 > handler->max_size) {
trace_macro ("stack is full: throwing...");
throw std::bad_alloc();
}
return pointer (p);
}
void deallocate (pointer p, size_type n)
{
trace_macro ("deallocate "<<n<<" type "<<typename_macro(T));
// No need to free stack memory
}
const handler_type* get_handler() const {
return handler;
}
// data:
protected:
struct handler_type {
unsigned char* stack;
size_t allocated_size;
size_t max_size;
size_t reference_count;
handler_type()
: stack (NULL),
allocated_size (0),
max_size (0),
reference_count (1)
{
trace_macro ("stack_allocator::mem_info cstor NULL");
}
handler_type (unsigned char* stack1, size_t size1)
: stack (stack1),
allocated_size (0),
max_size (size1),
reference_count (1)
{
trace_macro ("stack_allocator::mem_info cstori: size="<<max_size);
}
~handler_type()
{
trace_macro ("stack_allocator::mem_info dstor: size="<<max_size);
}
};
handler_type* handler;
template <typename U> friend class stack_allocator;
};
// Comparison
template <typename T1>
bool operator==( const stack_allocator<T1>& lhs, const stack_allocator<T1>& rhs) throw()
{
return lhs.get_handler() == rhs.get_handler();
}
template <typename T1>
bool operator!=( const stack_allocator<T1>& lhs, const stack_allocator<T1>& rhs) throw()
{
return lhs.get_handler() != rhs.get_handler();
}
//>end_verbatim:
} // namespace rheolef
#endif // STACK_ALLOCATOR_H
|