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|
// (C) Copyright Joel de Guzman 2003.
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#ifndef INDEXING_SUITE_DETAIL_JDG20036_HPP
# define INDEXING_SUITE_DETAIL_JDG20036_HPP
# include <boost/python/extract.hpp>
# include <boost/scoped_ptr.hpp>
# include <boost/get_pointer.hpp>
# include <boost/detail/binary_search.hpp>
# include <boost/numeric/conversion/cast.hpp>
# include <boost/type_traits/is_pointer.hpp>
# include <vector>
# include <map>
#include <iostream>
namespace boost { namespace python { namespace detail {
#if defined(NDEBUG)
#define BOOST_PYTHON_INDEXING_CHECK_INVARIANT
#else
#define BOOST_PYTHON_INDEXING_CHECK_INVARIANT check_invariant()
#endif
template <class Proxy>
struct compare_proxy_index
{
// This functor compares a proxy and an index.
// This is used by proxy_group::first_proxy to
// get first proxy with index i.
template <class Index>
bool operator()(PyObject* prox, Index i) const
{
typedef typename Proxy::policies_type policies_type;
Proxy& proxy = extract<Proxy&>(prox)();
return policies_type::
compare_index(proxy.get_container(), proxy.get_index(), i);
}
};
// The proxy_group class holds a vector of container element
// proxies. First, what is a container element proxy? A container
// element proxy acts like a smart pointer holding a reference to
// a container and an index (see container_element, for details).
//
// The proxies are held in a vector always sorted by its index.
// Various functions manage the addition, removal and searching
// of proxies from the vector.
//
template <class Proxy>
class proxy_group
{
public:
typedef typename std::vector<PyObject*>::const_iterator const_iterator;
typedef typename std::vector<PyObject*>::iterator iterator;
typedef typename Proxy::index_type index_type;
typedef typename Proxy::policies_type policies_type;
iterator
first_proxy(index_type i)
{
// Return the first proxy with index <= i
return boost::detail::lower_bound(
proxies.begin(), proxies.end(),
i, compare_proxy_index<Proxy>());
}
void
remove(Proxy& proxy)
{
// Remove a proxy
for (iterator iter = first_proxy(proxy.get_index());
iter != proxies.end(); ++iter)
{
if (&extract<Proxy&>(*iter)() == &proxy)
{
proxies.erase(iter);
break;
}
}
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
}
void
add(PyObject* prox)
{
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
// Add a proxy
proxies.insert(
first_proxy(extract<Proxy&>(prox)().get_index()), prox);
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
}
void
erase(index_type i, mpl::false_)
{
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
// Erase the proxy with index i
replace(i, i+1, 0);
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
}
void
erase(index_type i, mpl::true_)
{
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
// Erase the proxy with index i
iterator iter = first_proxy(i);
extract<Proxy&> p(*iter);
if (iter != proxies.end() && p().get_index() == i)
{
extract<Proxy&> p(*iter);
p().detach();
proxies.erase(iter);
}
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
}
void
erase(index_type from, index_type to)
{
// note: this cannot be called when container is not sliceable
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
// Erase all proxies with indexes from..to
replace(from, to, 0);
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
}
void
replace(
index_type from,
index_type to,
typename std::vector<PyObject*>::size_type len)
{
// note: this cannot be called when container is not sliceable
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
// Erase all proxies with indexes from..to.
// Adjust the displaced indexes such that the
// final effect is that we have inserted *len*
// number of proxies in the vacated region. This
// procedure involves adjusting the indexes of
// the proxies.
iterator left = first_proxy(from);
iterator right = proxies.end(); // we'll adjust this later
for (iterator iter = left; iter != right; ++iter)
{
if (extract<Proxy&>(*iter)().get_index() > to)
{
right = iter; // adjust right
break;
}
extract<Proxy&> p(*iter);
p().detach();
}
typename std::vector<PyObject*>::size_type
offset = left-proxies.begin();
proxies.erase(left, right);
right = proxies.begin()+offset;
while (right != proxies.end())
{
typedef typename Proxy::container_type::difference_type difference_type;
extract<Proxy&> p(*right);
p().set_index(
extract<Proxy&>(*right)().get_index()
- (difference_type(to) - from - len)
);
++right;
}
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
}
PyObject*
find(index_type i)
{
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
// Find the proxy with *exact* index i.
// Return 0 (null) if no proxy with the
// given index is found.
iterator iter = first_proxy(i);
if (iter != proxies.end()
&& extract<Proxy&>(*iter)().get_index() == i)
{
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
return *iter;
}
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
return 0;
}
typename std::vector<PyObject*>::size_type
size() const
{
BOOST_PYTHON_INDEXING_CHECK_INVARIANT;
// How many proxies are there so far?
return proxies.size();
}
private:
#if !defined(NDEBUG)
void
check_invariant() const
{
for (const_iterator i = proxies.begin(); i != proxies.end(); ++i)
{
if ((*i)->ob_refcnt <= 0)
{
PyErr_SetString(PyExc_RuntimeError,
"Invariant: Proxy vector in an inconsistent state");
throw_error_already_set();
}
if (i+1 != proxies.end())
{
if (extract<Proxy&>(*(i+1))().get_index() ==
extract<Proxy&>(*(i))().get_index())
{
PyErr_SetString(PyExc_RuntimeError,
"Invariant: Proxy vector in an inconsistent state (duplicate proxy)");
throw_error_already_set();
}
}
}
}
#endif
std::vector<PyObject*> proxies;
};
// proxy_links holds a map of Container pointers (keys)
// with proxy_group(s) (data). Various functions manage
// the addition, removal and searching of proxies from
// the map.
//
template <class Proxy, class Container>
class proxy_links
{
public:
typedef std::map<Container*, proxy_group<Proxy> > links_t;
typedef typename Proxy::index_type index_type;
void
remove(Proxy& proxy)
{
// Remove a proxy.
typename links_t::iterator r = links.find(&proxy.get_container());
if (r != links.end())
{
r->second.remove(proxy);
if (r->second.size() == 0)
links.erase(r);
}
}
void
add(PyObject* prox, Container& container)
{
// Add a proxy
links[&container].add(prox);
}
template <class NoSlice>
void erase(Container& container, index_type i, NoSlice no_slice)
{
// Erase the proxy with index i
typename links_t::iterator r = links.find(&container);
if (r != links.end())
{
r->second.erase(i, no_slice);
if (r->second.size() == 0)
links.erase(r);
}
}
void
erase(Container& container, index_type from, index_type to)
{
// Erase all proxies with indexes from..to
typename links_t::iterator r = links.find(&container);
if (r != links.end())
{
r->second.erase(from, to);
if (r->second.size() == 0)
links.erase(r);
}
}
void
replace(
Container& container,
index_type from, index_type to, index_type len)
{
// Erase all proxies with indexes from..to.
// Adjust the displaced indexes such that the
// final effect is that we have inserted *len*
// number of proxies in the vacated region. This
// procedure involves adjusting the indexes of
// the proxies.
typename links_t::iterator r = links.find(&container);
if (r != links.end())
{
r->second.replace(from, to, len);
if (r->second.size() == 0)
links.erase(r);
}
}
PyObject*
find(Container& container, index_type i)
{
// Find the proxy with *exact* index i.
// Return 0 (null) if no proxy with the given
// index is found.
typename links_t::iterator r = links.find(&container);
if (r != links.end())
return r->second.find(i);
return 0;
}
private:
links_t links;
};
// container_element is our container proxy class.
// This class acts like a smart pointer to a container
// element. The class holds an index and a reference to
// a container. Dereferencing the smart pointer will
// retrieve the nth (index) element from the container.
//
// A container_element can also be detached from the
// container. In such a detached state, the container_element
// holds a copy of the nth (index) element, which it
// returns when dereferenced.
//
template <class Container, class Index, class Policies>
class container_element
{
public:
typedef Index index_type;
typedef Container container_type;
typedef typename Policies::data_type element_type;
typedef Policies policies_type;
typedef container_element<Container, Index, Policies> self_t;
typedef proxy_group<self_t> links_type;
container_element(object container, Index index)
: ptr()
, container(container)
, index(index)
{
}
container_element(container_element const& ce)
: ptr(ce.ptr.get() == 0 ? 0 : new element_type(*ce.ptr.get()))
, container(ce.container)
, index(ce.index)
{
}
~container_element()
{
if (!is_detached())
get_links().remove(*this);
}
element_type& operator*() const
{
if (is_detached())
return *get_pointer(ptr);
return Policies::get_item(get_container(), index);
}
element_type* get() const
{
if (is_detached())
return get_pointer(ptr);
return &Policies::get_item(get_container(), index);
}
void
detach()
{
if (!is_detached())
{
ptr.reset(
new element_type(
Policies::get_item(get_container(), index)));
container = object(); // free container. reset it to None
}
}
bool
is_detached() const
{
return get_pointer(ptr) != 0;
}
Container&
get_container() const
{
return extract<Container&>(container)();
}
Index
get_index() const
{
return index;
}
void
set_index(Index i)
{
index = i;
}
static proxy_links<self_t, Container>&
get_links()
{
// All container_element(s) maintain links to
// its container in a global map (see proxy_links).
// This global "links" map is a singleton.
static proxy_links<self_t, Container> links;
return links; // singleton
}
private:
container_element& operator=(container_element const& ce);
scoped_ptr<element_type> ptr;
object container;
Index index;
};
template <
class Container
, class DerivedPolicies
, class ContainerElement
, class Index
>
struct no_proxy_helper
{
static void
register_container_element()
{
}
template <class DataType>
static object
base_get_item_helper(DataType const& p, mpl::true_)
{
return object(ptr(p));
}
template <class DataType>
static object
base_get_item_helper(DataType const& x, mpl::false_)
{
return object(x);
}
static object
base_get_item_(back_reference<Container&> const& container, PyObject* i)
{
return base_get_item_helper(
DerivedPolicies::get_item(
container.get(), DerivedPolicies::
convert_index(container.get(), i))
, is_pointer<BOOST_DEDUCED_TYPENAME Container::value_type>()
);
}
static void
base_replace_indexes(
Container& /*container*/, Index /*from*/,
Index /*to*/, Index /*n*/)
{
}
template <class NoSlice>
static void
base_erase_index(
Container& /*container*/, Index /*i*/, NoSlice /*no_slice*/)
{
}
static void
base_erase_indexes(Container& /*container*/, Index /*from*/, Index /*to*/)
{
}
};
template <
class Container
, class DerivedPolicies
, class ContainerElement
, class Index
>
struct proxy_helper
{
static void
register_container_element()
{
register_ptr_to_python<ContainerElement>();
}
static object
base_get_item_(back_reference<Container&> const& container, PyObject* i)
{
// Proxy
Index idx = DerivedPolicies::convert_index(container.get(), i);
if (PyObject* shared =
ContainerElement::get_links().find(container.get(), idx))
{
handle<> h(python::borrowed(shared));
return object(h);
}
else
{
object prox(ContainerElement(container.source(), idx));
ContainerElement::
get_links().add(prox.ptr(), container.get());
return prox;
}
}
static void
base_replace_indexes(
Container& container, Index from,
Index to, Index n)
{
ContainerElement::get_links().replace(container, from, to, n);
}
template <class NoSlice>
static void
base_erase_index(
Container& container, Index i, NoSlice no_slice)
{
ContainerElement::get_links().erase(container, i, no_slice);
}
static void
base_erase_indexes(
Container& container, Index from, Index to)
{
ContainerElement::get_links().erase(container, from, to);
}
};
template <
class Container
, class DerivedPolicies
, class ProxyHandler
, class Data
, class Index
>
struct slice_helper
{
static object
base_get_slice(Container& container, PySliceObject* slice)
{
Index from, to;
base_get_slice_data(container, slice, from, to);
return DerivedPolicies::get_slice(container, from, to);
}
static void
base_get_slice_data(
Container& container, PySliceObject* slice, Index& from_, Index& to_)
{
if (Py_None != slice->step) {
PyErr_SetString( PyExc_IndexError, "slice step size not supported.");
throw_error_already_set();
}
Index min_index = DerivedPolicies::get_min_index(container);
Index max_index = DerivedPolicies::get_max_index(container);
if (Py_None == slice->start) {
from_ = min_index;
}
else {
long from = extract<long>( slice->start);
if (from < 0) // Negative slice index
from += max_index;
if (from < 0) // Clip lower bounds to zero
from = 0;
from_ = boost::numeric_cast<Index>(from);
if (from_ > max_index) // Clip upper bounds to max_index.
from_ = max_index;
}
if (Py_None == slice->stop) {
to_ = max_index;
}
else {
long to = extract<long>( slice->stop);
if (to < 0)
to += max_index;
if (to < 0)
to = 0;
to_ = boost::numeric_cast<Index>(to);
if (to_ > max_index)
to_ = max_index;
}
}
static void
base_set_slice(Container& container, PySliceObject* slice, PyObject* v)
{
Index from, to;
base_get_slice_data(container, slice, from, to);
extract<Data&> elem(v);
// try if elem is an exact Data
if (elem.check())
{
ProxyHandler::base_replace_indexes(container, from, to, 1);
DerivedPolicies::set_slice(container, from, to, elem());
}
else
{
// try to convert elem to Data
extract<Data> elem(v);
if (elem.check())
{
ProxyHandler::base_replace_indexes(container, from, to, 1);
DerivedPolicies::set_slice(container, from, to, elem());
}
else
{
// Otherwise, it must be a list or some container
handle<> l_(python::borrowed(v));
object l(l_);
std::vector<Data> temp;
for (int i = 0; i < l.attr("__len__")(); i++)
{
object elem(l[i]);
extract<Data const&> x(elem);
// try if elem is an exact Data type
if (x.check())
{
temp.push_back(x());
}
else
{
// try to convert elem to Data type
extract<Data> x(elem);
if (x.check())
{
temp.push_back(x());
}
else
{
PyErr_SetString(PyExc_TypeError,
"Invalid sequence element");
throw_error_already_set();
}
}
}
ProxyHandler::base_replace_indexes(container, from, to,
temp.end()-temp.begin());
DerivedPolicies::set_slice(container, from, to,
temp.begin(), temp.end());
}
}
}
static void
base_delete_slice(Container& container, PySliceObject* slice)
{
Index from, to;
base_get_slice_data(container, slice, from, to);
ProxyHandler::base_erase_indexes(container, from, to);
DerivedPolicies::delete_slice(container, from, to);
}
};
template <
class Container
, class DerivedPolicies
, class ProxyHandler
, class Data
, class Index
>
struct no_slice_helper
{
static void
slicing_not_suported()
{
PyErr_SetString(PyExc_RuntimeError, "Slicing not supported");
throw_error_already_set();
}
static object
base_get_slice(Container& /*container*/, PySliceObject* /*slice*/)
{
slicing_not_suported();
return object();
}
static void
base_set_slice(Container& /*container*/, PySliceObject* /*slice*/, PyObject* /*v*/)
{
slicing_not_suported();
}
static void
base_delete_slice(Container& /*container*/, PySliceObject* /*slice*/)
{
slicing_not_suported();
}
};
#ifdef BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP
}} // namespace python::detail
#endif
template <class Container, class Index, class Policies>
inline typename Policies::data_type*
get_pointer(
python::detail::container_element<Container, Index, Policies> const& p)
{
// Get the pointer of a container_element smart pointer
return p.get();
}
#ifndef BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP
// Don't hide these other get_pointer overloads
using boost::python::get_pointer;
using boost::get_pointer;
}} // namespace python::detail
#endif
} // namespace boost
#endif // INDEXING_SUITE_DETAIL_JDG20036_HPP
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