actual/packages/node-libofx/OpenSP-1.5.2/include/PointerTable.cxx

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2022-04-29 02:44:38 +00:00
// Copyright (c) 1994 James Clark
// See the file COPYING for copying permission.
#ifndef PointerTable_DEF_INCLUDED
#define PointerTable_DEF_INCLUDED 1
#include <stdlib.h>
#ifdef SP_NAMESPACE
namespace SP_NAMESPACE {
#endif
template<class P, class K, class HF, class KF>
PointerTable<P, K, HF, KF>::PointerTable()
: used_(0), usedLimit_(0), null_(0)
{
}
template<class P, class K, class HF, class KF>
void PointerTable<P, K, HF, KF>::clear()
{
vec_.clear();
used_ = 0;
usedLimit_ = 0;
}
template<class P, class K, class HF, class KF>
P PointerTable<P, K, HF, KF>::insert(P p, Boolean replace)
{
size_t h;
if (vec_.size() == 0) {
vec_.assign(8, P(0));
usedLimit_ = 4;
h = startIndex(KF::key(*p));
}
else {
for (h = startIndex(KF::key(*p)); vec_[h] != 0 ; h = nextIndex(h))
if (KF::key(*vec_[h]) == KF::key(*p)) {
if (replace) {
P tem(vec_[h]);
vec_[h] = p;
return tem;
}
else
return vec_[h];
}
if (used_ >= usedLimit_) {
if (vec_.size() > size_t(-1)/2) {
if (usedLimit_ == vec_.size() - 1)
abort(); // FIXME throw an exception
else
usedLimit_ = vec_.size() - 1;
}
else {
// rehash
Vector<P> oldVec(vec_.size()*2, P(0));
vec_.swap(oldVec);
usedLimit_ = vec_.size() / 2;
for (size_t i = 0; i < oldVec.size(); i++)
if (oldVec[i] != 0) {
size_t j;
for (j = startIndex(KF::key(*oldVec[i]));
vec_[j] != 0;
j = nextIndex(j))
;
vec_[j] = oldVec[i];
}
for (h = startIndex(KF::key(*p)); vec_[h] != 0; h = nextIndex(h))
;
}
}
}
used_++;
vec_[h] = p;
return 0;
}
template<class P, class K, class HF, class KF>
const P &PointerTable<P, K, HF, KF>::lookup(const K &k) const
{
if (used_ > 0) {
for (size_t i = startIndex(k); vec_[i] != 0; i = nextIndex(i))
if (KF::key(*vec_[i]) == k)
return vec_[i];
}
return null_;
}
template<class P, class K, class HF, class KF>
P PointerTable<P, K, HF, KF>::remove(const K &k)
{
if (used_ > 0) {
for (size_t i = startIndex(k); vec_[i] != 0; i = nextIndex(i))
if (KF::key(*vec_[i]) == k) {
P p = vec_[i];
do {
vec_[i] = P(0);
size_t j = i;
size_t r;
do {
i = nextIndex(i);
if (vec_[i] == 0)
break;
r = startIndex(KF::key(*vec_[i]));
} while ((i <= r && r < j) || (r < j && j < i) || (j < i && i <= r));
vec_[j] = vec_[i];
} while (vec_[i] != 0);
--used_;
return p;
}
}
return 0;
}
template<class P, class K, class HF, class KF>
void PointerTable<P, K, HF, KF>::swap(PointerTable<P, K, HF, KF> &to)
{
vec_.swap(to.vec_);
size_t tem = to.used_;
to.used_ = used_;
used_ = tem;
tem = to.usedLimit_;
to.usedLimit_ = usedLimit_;
usedLimit_ = tem;
}
template<class P, class K, class HF, class KF>
PointerTableIter<P, K, HF, KF>::PointerTableIter(const PointerTable<P, K, HF, KF> &table)
: tablePtr_(&table), i_(0)
{
}
template<class P, class K, class HF, class KF>
const P &PointerTableIter<P, K, HF, KF>::next()
{
for (; i_ < tablePtr_->vec_.size(); i_++)
if (tablePtr_->vec_[i_] != 0)
return tablePtr_->vec_[i_++];
return tablePtr_->null_;
}
#ifdef SP_NAMESPACE
}
#endif
#endif /* not PointerTable_DEF_INCLUDED */