GINAC_ASSERT(is_canonical());
}
-expairseq::expairseq(epvector *vp, const ex &oc)
+expairseq::expairseq(std::auto_ptr<epvector> vp, const ex &oc)
: inherited(TINFO_expairseq), overall_coeff(oc)
{
GINAC_ASSERT(vp!=0);
GINAC_ASSERT(is_a<numeric>(oc));
construct_from_epvector(*vp);
- delete vp;
GINAC_ASSERT(is_canonical());
}
void expairseq::do_print_tree(const print_tree & c, unsigned level) const
{
- c.s << std::string(level, ' ') << class_name()
+ c.s << std::string(level, ' ') << class_name() << " @" << this
<< std::hex << ", hash=0x" << hashvalue << ", flags=0x" << flags << std::dec
<< ", nops=" << nops()
<< std::endl;
ex expairseq::map(map_function &f) const
{
- epvector *v = new epvector;
+ std::auto_ptr<epvector> v(new epvector);
v->reserve(seq.size());
epvector::const_iterator cit = seq.begin(), last = seq.end();
if ((level==1) && (flags &status_flags::evaluated))
return *this;
- epvector *vp = evalchildren(level);
- if (vp==0)
+ std::auto_ptr<epvector> vp = evalchildren(level);
+ if (vp.get() == 0)
return this->hold();
- return (new expairseq(vp,overall_coeff))->setflag(status_flags::dynallocated | status_flags::evaluated);
+ return (new expairseq(vp, overall_coeff))->setflag(status_flags::dynallocated | status_flags::evaluated);
}
bool expairseq::match(const ex & pattern, lst & repl_lst) const
// it has already been matched before, in which case the matches
// must be equal)
size_t num = ops.size();
- epvector *vp = new epvector();
+ std::auto_ptr<epvector> vp(new epvector);
vp->reserve(num);
for (size_t i=0; i<num; i++)
vp->push_back(split_ex_to_pair(ops[i]));
ex expairseq::subs(const exmap & m, unsigned options) const
{
- epvector *vp = subschildren(m, options);
- if (vp)
+ std::auto_ptr<epvector> vp = subschildren(m, options);
+ if (vp.get())
return ex_to<basic>(thisexpairseq(vp, overall_coeff));
else if ((options & subs_options::algebraic) && is_exactly_a<mul>(*this))
return static_cast<const mul *>(this)->algebraic_subs_mul(m, options);
ex expairseq::expand(unsigned options) const
{
- epvector *vp = expandchildren(options);
- if (vp == NULL) {
+ std::auto_ptr<epvector> vp = expandchildren(options);
+ if (vp.get())
+ return thisexpairseq(vp, overall_coeff);
+ else {
// The terms have not changed, so it is safe to declare this expanded
return (options == 0) ? setflag(status_flags::expanded) : *this;
- } else
- return thisexpairseq(vp, overall_coeff);
+ }
}
//////////
* definition. */
ex expairseq::thisexpairseq(const epvector &v, const ex &oc) const
{
- return expairseq(v,oc);
+ return expairseq(v, oc);
}
-ex expairseq::thisexpairseq(epvector *vp, const ex &oc) const
+ex expairseq::thisexpairseq(std::auto_ptr<epvector> vp, const ex &oc) const
{
- return expairseq(vp,oc);
+ return expairseq(vp, oc);
}
void expairseq::printpair(const print_context & c, const expair & p, unsigned upper_precedence) const
* @see expairseq::expand()
* @return pointer to epvector containing expanded pairs or zero pointer,
* if no members were changed. */
-epvector * expairseq::expandchildren(unsigned options) const
+std::auto_ptr<epvector> expairseq::expandchildren(unsigned options) const
{
const epvector::const_iterator last = seq.end();
epvector::const_iterator cit = seq.begin();
if (!are_ex_trivially_equal(cit->rest,expanded_ex)) {
// something changed, copy seq, eval and return it
- epvector *s = new epvector;
+ std::auto_ptr<epvector> s(new epvector);
s->reserve(seq.size());
// copy parts of seq which are known not to have changed
s->push_back(*cit2);
++cit2;
}
+
// copy first changed element
s->push_back(combine_ex_with_coeff_to_pair(expanded_ex,
cit2->coeff));
++cit2;
+
// copy rest
while (cit2!=last) {
s->push_back(combine_ex_with_coeff_to_pair(cit2->rest.expand(options),
++cit;
}
- return 0; // signalling nothing has changed
+ return std::auto_ptr<epvector>(0); // signalling nothing has changed
}
* @see expairseq::eval()
* @return pointer to epvector containing evaluated pairs or zero pointer,
* if no members were changed. */
-epvector * expairseq::evalchildren(int level) const
+std::auto_ptr<epvector> expairseq::evalchildren(int level) const
{
// returns a NULL pointer if nothing had to be evaluated
// returns a pointer to a newly created epvector otherwise
// (which has to be deleted somewhere else)
if (level==1)
- return 0;
+ return std::auto_ptr<epvector>(0);
if (level == -max_recursion_level)
throw(std::runtime_error("max recursion level reached"));
if (!are_ex_trivially_equal(cit->rest,evaled_ex)) {
// something changed, copy seq, eval and return it
- epvector *s = new epvector;
+ std::auto_ptr<epvector> s(new epvector);
s->reserve(seq.size());
// copy parts of seq which are known not to have changed
s->push_back(*cit2);
++cit2;
}
+
// copy first changed element
s->push_back(combine_ex_with_coeff_to_pair(evaled_ex,
cit2->coeff));
++cit2;
+
// copy rest
while (cit2!=last) {
s->push_back(combine_ex_with_coeff_to_pair(cit2->rest.eval(level),
++cit;
}
- return 0; // signalling nothing has changed
+ return std::auto_ptr<epvector>(0); // signalling nothing has changed
}
* @see expairseq::subs()
* @return pointer to epvector containing pairs after application of subs,
* or NULL pointer if no members were changed. */
-epvector * expairseq::subschildren(const exmap & m, unsigned options) const
+std::auto_ptr<epvector> expairseq::subschildren(const exmap & m, unsigned options) const
{
// When any of the objects to be substituted is a product or power
// we have to recombine the pairs because the numeric coefficients may
if (!are_ex_trivially_equal(orig_ex, subsed_ex)) {
// Something changed, copy seq, subs and return it
- epvector *s = new epvector;
+ std::auto_ptr<epvector> s(new epvector);
s->reserve(seq.size());
// Copy parts of seq which are known not to have changed
if (!are_ex_trivially_equal(cit->rest, subsed_ex)) {
// Something changed, copy seq, subs and return it
- epvector *s = new epvector;
+ std::auto_ptr<epvector> s(new epvector);
s->reserve(seq.size());
// Copy parts of seq which are known not to have changed
}
// Nothing has changed
- return NULL;
+ return std::auto_ptr<epvector>(0);
}
//////////