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#include "ExNode.hh"
#include "Cleanup.hh"
#include "Exceptions.hh"
#include "Algorithm.hh"
#include "pythoncdb/py_kernel.hh"
#include <pybind11/pybind11.h>
#include <pybind11/embed.h>
#include <pybind11/operators.h>
#include <pybind11/stl.h>
#include "DisplayTeX.hh"
#include "DisplaySympy.hh"
#include "DisplayTerminal.hh"
#include <sstream>
//#define DEBUG 1
using namespace cadabra;
ExNode::ExNode(const Kernel& k, std::shared_ptr<Ex> ex_)
: IndexClassifier(k), ex(ex_), indices_only(false), args_only(false), terms_only(false), factors_only(false),
indnxtit(get_kernel_from_scope()->properties), use_sibling_iterator(false), use_index_iterator(false)
{
}
ExNode ExNode::copy() const
{
ExNode ret(kernel, ex);
ret.it=it;
ret.tag=tag;
ret.indices_only=indices_only;
ret.args_only=args_only;
ret.terms_only=terms_only;
ret.factors_only=factors_only;
ret.nxtit=nxtit;
ret.sibnxtit=sibnxtit;
ret.indnxtit=indnxtit;
ret.use_sibling_iterator=use_sibling_iterator;
ret.use_index_iterator=use_index_iterator;
ret.topit=topit;
ret.stopit=stopit;
ret.ind_free=ind_free;
ret.ind_dummy=ind_dummy;
ret.ind_pos_dummy=ind_pos_dummy;
return ret;
}
ExNode ExNode::getitem_string(std::string tag)
{
ExNode ret(kernel, ex);
ret.tag=tag;
ret.ex=ex;
ret.topit=it;
ret.stopit=it;
ret.stopit.skip_children();
++ret.stopit;
ret.update(true);
return ret;
}
ExNode ExNode::getitem_iterator(ExNode it)
{
if(it.ex!=ex) {
std::cerr << "Need to convert iterator" << std::endl;
}
ExNode ret=it;
return ret;
}
void ExNode::setitem_string(std::string, std::shared_ptr<Ex>)
{
// ExNode ret(ex);
// ret.tag=tag;
// ret.ex=ex;
// ret.topit=it;
// ret.stopit=it;
// ret.stopit.skip_children();
// ++ret.stopit;
// ret.update(true);
//
std::cerr << "will set iterator range to value" << std::endl;
//// Ex::iterator it=ex->begin();
////
//// size_t num=ex->number_of_children(it);
//// if(index>=0 && (size_t)index<num)
//// ex->replace(ex->child(it, index), val.begin());
//// else
//// throw ArgumentException("index "+std::to_string(index)+" out of range, must be smaller than "+std::to_string(num));
//
// return ret;
}
void ExNode::setitem_iterator(ExNode en, std::shared_ptr<Ex> val)
{
std::cerr << "Setitem iterator" << std::endl;
Ex::iterator use;
if(en.ex!=ex) {
std::cerr << "Setitem need to convert iterator" << std::endl;
auto path=en.ex->path_from_iterator(en.it, en.topit);
use=ex->iterator_from_path(path, topit);
}
else use=en.it;
Ex::iterator top=val->begin();
if(*top->name=="") {
// std::cerr << "top is empty" << std::endl;
top=val->begin(top);
}
ex->replace(use, top);
}
ExNode ExNode::terms()
{
ExNode ret(kernel, ex);
ret.topit=it;
ret.terms_only=true;
ret.factors_only=false;
ret.use_sibling_iterator=true;
ret.update(true);
return ret;
}
ExNode ExNode::factors()
{
ExNode ret(kernel, ex);
ret.topit=it;
ret.terms_only=false;
ret.factors_only=true;
ret.use_sibling_iterator=true;
ret.update(true);
return ret;
}
ExNode ExNode::own_indices()
{
ExNode ret(kernel, ex);
ret.topit=it;
ret.indices_only=true;
ret.use_sibling_iterator=true;
ret.update(true);
return ret;
}
ExNode ExNode::indices()
{
ExNode ret(kernel, ex);
ret.topit=it;
ret.ind_free.clear();
ret.ind_dummy.clear();
ret.indices_only=true;
ret.use_index_iterator=true;
ret.update(true);
return ret;
}
ExNode ExNode::free_indices()
{
ExNode ret(kernel, ex);
ret.topit=it;
ret.ind_free.clear();
ret.ind_dummy.clear();
classify_indices(it, ret.ind_free, ret.ind_dummy);
fill_index_position_map(it, ret.ind_dummy, ret.ind_pos_dummy);
ret.indices_only=true;
ret.use_index_iterator=true;
ret.update(true);
return ret;
}
ExNode ExNode::args()
{
ExNode ret(kernel, ex);
ret.topit=it;
ret.args_only=true;
ret.use_sibling_iterator=true;
ret.update(true);
return ret;
}
ExNode ExNode::children()
{
ExNode ret(kernel, ex);
ret.topit=it;
ret.use_sibling_iterator=true;
ret.update(true);
return ret;
}
void ExNode::replace(std::shared_ptr<Ex> rep)
{
#ifdef DEBUG
std::cerr << "next at " << nxtit << std::endl;
#endif
while(nxtit!=stopit && ex->is_in_subtree(nxtit, it))
update(false);
#ifdef DEBUG
std::cerr << nxtit.node << std::endl;
std::cerr << stopit.node << std::endl;
if(nxtit==stopit)
std::cerr << "updated next to be at stopit" << std::endl;
else
std::cerr << "updated next at " << nxtit << std::endl;
#endif
it=ex->replace(it, rep->begin());
}
ExNode ExNode::insert(std::shared_ptr<Ex> rep)
{
ExNode ret(kernel, ex);
ret.it=ex->insert_subtree(it, rep->begin());
return ret;
}
ExNode ExNode::insert_it(ExNode rep)
{
ExNode ret(kernel, ex);
ret.it=ex->insert_subtree(it, rep.it);
return ret;
}
ExNode ExNode::append_child(std::shared_ptr<Ex> rep)
{
ExNode ret(kernel, ex);
ret.it=ex->append_child(it, rep->begin());
return ret;
}
ExNode ExNode::append_child_it(ExNode rep)
{
ExNode ret(kernel, ex);
ret.it=ex->append_child(it, rep.it);
return ret;
}
ExNode ExNode::add_ex(std::shared_ptr<cadabra::Ex> other)
{
// std::cerr << it << std::endl;
// std::cerr << "- - - " << std::endl;
// std::cerr << ex->begin() << std::endl;
if(ex->is_head(it) || *(ex->parent(it)->name)!="\\sum")
ex->wrap(it, str_node("\\sum"));
auto sumnode=ex->parent(it);
ExNode ret(kernel, ex);
// std::cerr << ex->begin() << std::endl;
ret.it=ex->insert_subtree_after(it, other->begin());
cleanup_dispatch(*get_kernel_from_scope(), *ex, sumnode);
// std::cerr << "----" << std::endl;
// std::cerr << ex->begin() << std::endl;
// std::cerr << "====" << std::endl;
return *this;
}
void ExNode::erase()
{
ex->erase(it);
}
std::string ExNode::get_name() const
{
if(!ex->is_valid(it))
throw ConsistencyException("Cannot print the value of an iterator before the first 'next'.");
return *it->name;
}
void ExNode::set_name(std::string nm)
{
if(!ex->is_valid(it))
throw ConsistencyException("Cannot set the value of an iterator before the first 'next'.");
it->name = name_set.insert(nm).first;
}
cadabra::Ex ExNode::get_ex() const
{
return Ex(it);
}
str_node::parent_rel_t ExNode::get_parent_rel() const
{
if(!ex->is_valid(it))
throw ConsistencyException("Cannot get the value of an iterator before the first 'next'.");
return it->fl.parent_rel;
}
void ExNode::set_parent_rel(str_node::parent_rel_t pr)
{
if(!ex->is_valid(it))
throw ConsistencyException("Cannot set the value of an iterator before the first 'next'.");
it->fl.parent_rel=pr;
}
pybind11::object ExNode::get_multiplier() const
{
if(!ex->is_valid(it))
throw ConsistencyException("Cannot get the multiplier of an iterator before the first 'next'.");
pybind11::object mpq = pybind11::module::import("gmpy2").attr("mpq");
auto m = *it->multiplier;
pybind11::object mult = mpq(m.get_num().get_si(), m.get_den().get_si());
return mult;
}
void ExNode::set_multiplier(pybind11::object mult)
{
if(!ex->is_valid(it))
throw ConsistencyException("Cannot set the multiplier of an iterator before the first 'next'.");
pybind11::object mpq = pybind11::module::import("gmpy2").attr("mpq");
multiply(it->multiplier, pybind11::cast<int>(mult));
}
ExNode& ExNode::iter()
{
return *this;
}
void ExNode::update(bool first)
{
if(use_sibling_iterator) {
if(terms_only) {
if(*topit->name=="\\sum") {
if(first) sibnxtit=ex->begin(topit);
else ++sibnxtit;
}
else {
if(Algorithm::is_termlike(topit)) {
if(Ex::is_head(topit)==false && *Ex::parent(topit)->name=="\\sum")
sibnxtit=ex->end(topit);
else {
if(first) sibnxtit=topit;
else sibnxtit=ex->end(topit);
}
}
else sibnxtit=ex->end(topit);
}
}
else if(factors_only) {
if(*topit->name=="\\prod") {
if(first) sibnxtit=ex->begin(topit);
else ++sibnxtit;
}
else {
if(first) sibnxtit=topit;
else sibnxtit=ex->end(topit);
}
}
else {
if(first) sibnxtit=ex->begin(topit);
else ++sibnxtit;
}
if(!indices_only && !args_only) return; // any sibling is ok.
while(sibnxtit!=ex->end(topit)) {
if(indices_only)
if(sibnxtit->fl.parent_rel==str_node::p_sub || sibnxtit->fl.parent_rel==str_node::p_super)
return;
if(args_only)
if(sibnxtit->fl.parent_rel==str_node::p_none)
return;
++sibnxtit;
}
}
else if(use_index_iterator) {
if(first) indnxtit=cadabra::index_iterator::begin(get_kernel_from_scope()->properties, topit);
else ++indnxtit;
// Test if this is a dummy index.
Ex::iterator tofind=indnxtit;
while(ind_pos_dummy.find(tofind)!=ind_pos_dummy.end()) {
#ifdef DEBUG
std::cerr << "considered " << tofind << " but that's a dummy" << std::endl;
#endif
++indnxtit;
tofind=indnxtit;
if(indnxtit==cadabra::index_iterator::end(get_kernel_from_scope()->properties, topit))
break;
}
}
else {
#ifdef DEBUG
std::cerr << "update normal iterator" << std::endl;
#endif
if(first) nxtit=topit;
else ++nxtit;
#ifdef DEBUG
if(nxtit==stopit)
std::cerr << "update reached end" << std::endl;
#endif
while(nxtit!=stopit) {
#ifdef DEBUG
std::cerr << "update at " << nxtit << std::endl;
#endif
if(tag=="" || *nxtit->name==tag)
return;
++nxtit;
}
}
}
ExNode& ExNode::next()
{
if(use_sibling_iterator) {
if(sibnxtit==ex->end(topit))
throw pybind11::stop_iteration();
it=sibnxtit;
}
else if(use_index_iterator) {
if(indnxtit==cadabra::index_iterator::end(get_kernel_from_scope()->properties, topit))
throw pybind11::stop_iteration();
it=indnxtit;
}
else {
if(nxtit==stopit)
throw pybind11::stop_iteration();
it=nxtit;
}
update(false);
return *this;
}
std::string ExNode::__str__() const
{
if(!ex->is_valid(it))
throw ConsistencyException("Cannot print iterator before the first 'next'.");
std::ostringstream str;
//
// // if(state()==Algorithm::result_t::l_no_action)
// // str << "(unchanged)" << std::endl;
// DisplayTeX dt(get_kernel_from_scope()->properties, ex);
DisplayTerminal dt(*get_kernel_from_scope(), it, true);
dt.output(str, it);
return str.str();
}
std::string ExNode::_latex_() const
{
if(!ex->is_valid(it))
throw ConsistencyException("Cannot print iterator LaTeX form before the first 'next'.");
std::ostringstream str;
DisplayTeX dt(*get_kernel_from_scope(), it);
dt.output(str, it);
return str.str();
}
ExNode Ex_iter(std::shared_ptr<Ex> ex)
{
ExNode ret(*get_kernel_from_scope(), ex);
ret.ex=ex;
ret.topit=ex->begin();
ret.stopit=ex->end();
ret.update(true);
return ret;
}
ExNode Ex_top(std::shared_ptr<Ex> ex)
{
ExNode ret(*get_kernel_from_scope(), ex);
ret.ex=ex;
ret.topit=ex->begin();
ret.stopit=ex->end();
ret.it=ret.topit;
return ret;
}
bool Ex_matches(std::shared_ptr<Ex> ex, ExNode& other)
{
Ex_comparator comp(get_kernel_from_scope()->properties);
auto ret=comp.equal_subtree(ex->begin(), other.it);
if(ret==Ex_comparator::match_t::no_match_less || ret==Ex_comparator::match_t::no_match_greater) return false;
return true;
}
bool Ex_matches_Ex(std::shared_ptr<Ex> ex, std::shared_ptr<Ex> other)
{
Ex_comparator comp(get_kernel_from_scope()->properties);
auto ret=comp.equal_subtree(ex->begin(), other->begin());
if(ret==Ex_comparator::match_t::no_match_less || ret==Ex_comparator::match_t::no_match_greater) return false;
return true;
}
bool ExNode_less(ExNode& one, ExNode& two)
{
Ex_comparator comp(get_kernel_from_scope()->properties);
auto ret=comp.equal_subtree(one.it, two.it);
if(ret==Ex_comparator::match_t::no_match_less) return true;
return false;
}
bool ExNode_greater(ExNode& one, ExNode& two)
{
Ex_comparator comp(get_kernel_from_scope()->properties);
auto ret=comp.equal_subtree(one.it, two.it);
if(ret==Ex_comparator::match_t::no_match_greater) return true;
return false;
}
ExNode Ex_getitem_string(std::shared_ptr<Ex> ex, std::string tag)
{
ExNode ret(*get_kernel_from_scope(), ex);
ret.tag=tag;
ret.ex=ex;
ret.topit=ex->begin();
ret.stopit=ex->end();
ret.update(true);
return ret;
}
ExNode Ex_getitem_iterator(std::shared_ptr<Ex> ex, ExNode en)
{
Ex::iterator use;
if(en.ex!=ex) {
// std::cerr << "Need to convert iterator " << en.it << std::endl;
// std::cerr << "for " << en.topit << std::endl;
// std::cerr << "to one for " << ex->begin() << std::endl;
auto path=en.ex->path_from_iterator(en.it, en.topit);
use=ex->iterator_from_path(path, ex->begin());
}
else use=en.it;
// use=ex->begin(); This does not help
ExNode ret(*get_kernel_from_scope(), ex);
ret.ex=ex;
ret.topit=use;
ret.it=use;
use.skip_children();
++use;
ret.stopit=use;
ret.update(true);
// std::cerr << "Set to go" << std::endl;
// std::cerr << ret.topit << std::endl;
return ret;
}
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