int mul::degree(const symbol & s) const
{
- int deg_sum=0;
+ int deg_sum = 0;
for (epvector::const_iterator cit=seq.begin(); cit!=seq.end(); ++cit) {
deg_sum+=(*cit).rest.degree(s) * ex_to_numeric((*cit).coeff).to_int();
}
int mul::ldegree(const symbol & s) const
{
- int deg_sum=0;
+ int deg_sum = 0;
for (epvector::const_iterator cit=seq.begin(); cit!=seq.end(); ++cit) {
deg_sum+=(*cit).rest.ldegree(s) * ex_to_numeric((*cit).coeff).to_int();
}
return (new add(distrseq,
ex_to_numeric(addref.overall_coeff).
mul_dyn(ex_to_numeric(overall_coeff))))
- ->setflag(status_flags::dynallocated |
+ ->setflag(status_flags::dynallocated |
status_flags::evaluated );
}
return this->hold();
}
+ex mul::evalf(int level) const
+{
+ if (level==1)
+ return mul(seq,overall_coeff);
+
+ if (level==-max_recursion_level)
+ throw(std::runtime_error("max recursion level reached"));
+
+ epvector s;
+ s.reserve(seq.size());
+
+ --level;
+ for (epvector::const_iterator it=seq.begin(); it!=seq.end(); ++it) {
+ s.push_back(combine_ex_with_coeff_to_pair((*it).rest.evalf(level),
+ (*it).coeff));
+ }
+ return mul(s,overall_coeff.evalf(level));
+}
+
exvector mul::get_indices(void) const
{
// return union of indices of factors
// D(a*b*c)=D(a)*b*c+a*D(b)*c+a*b*D(c)
for (unsigned i=0; i!=seq.size(); i++) {
- epvector sub_seq=seq;
+ epvector sub_seq = seq;
sub_seq[i] = split_ex_to_pair(sub_seq[i].coeff*
power(sub_seq[i].rest,sub_seq[i].coeff-1)*
sub_seq[i].rest.diff(s));
return return_types::commutative;
}
- bool all_commutative=1;
+ bool all_commutative = 1;
unsigned rt;
epvector::const_iterator cit_noncommutative_element; // point to first found nc element
if (rt==return_types::noncommutative_composite) return rt; // one ncc -> mul also ncc
if ((rt==return_types::noncommutative)&&(all_commutative)) {
// first nc element found, remember position
- cit_noncommutative_element=cit;
- all_commutative=0;
+ cit_noncommutative_element = cit;
+ all_commutative = 0;
}
if ((rt==return_types::noncommutative)&&(!all_commutative)) {
// another nc element found, compare type_infos
ex mul::expand(unsigned options) const
{
+ if (flags & status_flags::expanded)
+ return *this;
+
exvector sub_expanded_seq;
intvector positions_of_adds;
intvector number_of_add_operands;
-
- epvector * expanded_seqp=expandchildren(options);
-
+
+ epvector * expanded_seqp = expandchildren(options);
+
const epvector & expanded_seq = expanded_seqp==0 ? seq : *expanded_seqp;
-
+
positions_of_adds.resize(expanded_seq.size());
number_of_add_operands.resize(expanded_seq.size());
-
- int number_of_adds=0;
- int number_of_expanded_terms=1;
-
- unsigned current_position=0;
- epvector::const_iterator last=expanded_seq.end();
+
+ int number_of_adds = 0;
+ int number_of_expanded_terms = 1;
+
+ unsigned current_position = 0;
+ epvector::const_iterator last = expanded_seq.end();
for (epvector::const_iterator cit=expanded_seq.begin(); cit!=last; ++cit) {
if (is_ex_exactly_of_type((*cit).rest,add)&&
(ex_to_numeric((*cit).coeff).is_equal(_num1()))) {
- positions_of_adds[number_of_adds]=current_position;
- const add & expanded_addref=ex_to_add((*cit).rest);
- unsigned addref_nops=expanded_addref.nops();
- number_of_add_operands[number_of_adds]=addref_nops;
+ positions_of_adds[number_of_adds] = current_position;
+ const add & expanded_addref = ex_to_add((*cit).rest);
+ unsigned addref_nops = expanded_addref.nops();
+ number_of_add_operands[number_of_adds] = addref_nops;
number_of_expanded_terms *= addref_nops;
number_of_adds++;
}
current_position++;
}
-
+
if (number_of_adds==0) {
if (expanded_seqp==0) {
return this->setflag(status_flags::expanded);
}
return (new mul(expanded_seqp,overall_coeff))->
- setflag(status_flags::dynallocated ||
- status_flags::expanded);
+ setflag(status_flags::dynallocated |
+ status_flags::expanded);
}
-
+
exvector distrseq;
distrseq.reserve(number_of_expanded_terms);
-
+
intvector k;
k.resize(number_of_adds);
for (l=0; l<number_of_adds; l++) {
k[l]=0;
}
-
+
while (1) {
epvector term;
- term=expanded_seq;
+ term = expanded_seq;
for (l=0; l<number_of_adds; l++) {
const add & addref=ex_to_add(expanded_seq[positions_of_adds[l]].rest);
GINAC_ASSERT(term[positions_of_adds[l]].coeff.compare(_ex1())==0);
term[positions_of_adds[l]]=split_ex_to_pair(addref.op(k[l]));
}
- /*
- cout << "mul::expand() term begin" << endl;
- for (epvector::const_iterator cit=term.begin(); cit!=term.end(); ++cit) {
- cout << "rest" << endl;
- (*cit).rest.printtree(cout);
- cout << "coeff" << endl;
- (*cit).coeff.printtree(cout);
- }
- cout << "mul::expand() term end" << endl;
- */
distrseq.push_back((new mul(term,overall_coeff))->
- setflag(status_flags::dynallocated |
- status_flags::expanded));
-
+ setflag(status_flags::dynallocated |
+ status_flags::expanded));
+
// increment k[]
l=number_of_adds-1;
- while ((l>=0)&&((++k[l])>=number_of_add_operands[l])) {
+ while ((l>=0) && ((++k[l])>=number_of_add_operands[l])) {
k[l]=0;
l--;
}
if (l<0) break;
}
-
- if (expanded_seqp!=0) {
+
+ if (expanded_seqp!=0)
delete expanded_seqp;
- }
- /*
- cout << "mul::expand() distrseq begin" << endl;
- for (exvector::const_iterator cit=distrseq.begin(); cit!=distrseq.end(); ++cit) {
- (*cit).printtree(cout);
- }
- cout << "mul::expand() distrseq end" << endl;
- */
-
+
return (new add(distrseq))->setflag(status_flags::dynallocated |
status_flags::expanded);
}
epvector * mul::expandchildren(unsigned options) const
{
- epvector::const_iterator last=seq.end();
- epvector::const_iterator cit=seq.begin();
+ epvector::const_iterator last = seq.end();
+ epvector::const_iterator cit = seq.begin();
while (cit!=last) {
- const ex & factor=recombine_pair_to_ex(*cit);
- const ex & expanded_factor=factor.expand(options);
+ const ex & factor = recombine_pair_to_ex(*cit);
+ const ex & expanded_factor = factor.expand(options);
if (!are_ex_trivially_equal(factor,expanded_factor)) {
-
+
// something changed, copy seq, eval and return it
epvector *s=new epvector;
s->reserve(seq.size());
-
+
// copy parts of seq which are known not to have changed
- epvector::const_iterator cit2=seq.begin();
+ epvector::const_iterator cit2 = seq.begin();
while (cit2!=cit) {
s->push_back(*cit2);
++cit2;
// protected
-unsigned mul::precedence=50;
+unsigned mul::precedence = 50;
//////////
//////////
const mul some_mul;
-const type_info & typeid_mul=typeid(some_mul);
+const type_info & typeid_mul = typeid(some_mul);
#ifndef NO_NAMESPACE_GINAC
} // namespace GiNaC