#include "utils.h"
#include "debugmsg.h"
-#ifndef NO_GINAC_NAMESPACE
+#ifndef NO_NAMESPACE_GINAC
namespace GiNaC {
-#endif // ndef NO_GINAC_NAMESPACE
+#endif // ndef NO_NAMESPACE_GINAC
GINAC_IMPLEMENT_REGISTERED_CLASS(pseries, basic)
destroy(false);
}
-pseries::pseries(pseries const &other)
+pseries::pseries(const pseries &other)
{
debugmsg("pseries copy constructor", LOGLEVEL_CONSTRUCT);
copy(other);
}
-pseries const &pseries::operator=(pseries const & other)
+const pseries &pseries::operator=(const pseries & other)
{
debugmsg("pseries operator=", LOGLEVEL_ASSIGNMENT);
if (this != &other) {
return *this;
}
-void pseries::copy(pseries const &other)
+void pseries::copy(const pseries &other)
{
inherited::copy(other);
seq = other.seq;
* @param point_ expansion point
* @param ops_ vector of {coefficient, power} pairs (coefficient must not be zero)
* @return newly constructed pseries */
-pseries::pseries(ex const &var_, ex const &point_, epvector const &ops_)
+pseries::pseries(const ex &var_, const ex &point_, const epvector &ops_)
: basic(TINFO_pseries), seq(ops_), var(var_), point(point_)
{
debugmsg("pseries constructor from ex,ex,epvector", LOGLEVEL_CONSTRUCT);
void pseries::print(ostream &os, unsigned upper_precedence) const
{
- debugmsg("symbol print", LOGLEVEL_PRINT);
- convert_to_poly().print(os, upper_precedence);
+ debugmsg("pseries print", LOGLEVEL_PRINT);
+ convert_to_poly().print(os, upper_precedence);
}
void pseries::printraw(ostream &os) const
{
- debugmsg("symbol printraw", LOGLEVEL_PRINT);
+ debugmsg("pseries printraw", LOGLEVEL_PRINT);
os << "pseries(" << var << ";" << point << ";";
for (epvector::const_iterator i=seq.begin(); i!=seq.end(); i++) {
os << "(" << (*i).rest << "," << (*i).coeff << "),";
unsigned pseries::nops(void) const
{
- return seq.size();
+ return seq.size();
}
ex pseries::op(int i) const
{
- if (i < 0 || i >= seq.size())
- throw (std::out_of_range("op() out of range"));
- return seq[i].rest * power(var - point, seq[i].coeff);
+ if (i < 0 || unsigned(i) >= seq.size())
+ throw (std::out_of_range("op() out of range"));
+ return seq[i].rest * power(var - point, seq[i].coeff);
}
ex &pseries::let_op(int i)
throw (std::logic_error("let_op not defined for pseries"));
}
-int pseries::degree(symbol const &s) const
+int pseries::degree(const symbol &s) const
{
if (var.is_equal(s)) {
// Return last exponent
}
}
-int pseries::ldegree(symbol const &s) const
+int pseries::ldegree(const symbol &s) const
{
if (var.is_equal(s)) {
// Return first exponent
}
}
-ex pseries::coeff(symbol const &s, int const n) const
+ex pseries::coeff(const symbol &s, int n) const
{
if (var.is_equal(s)) {
- epvector::const_iterator it = seq.begin(), itend = seq.end();
- while (it != itend) {
- int pow = ex_to_numeric(it->coeff).to_int();
- if (pow == n)
- return it->rest;
- if (pow > n)
- return _ex0();
- it++;
- }
- return _ex0();
+ if (seq.size() == 0)
+ return _ex0();
+
+ // Binary search in sequence for given power
+ numeric looking_for = numeric(n);
+ int lo = 0, hi = seq.size() - 1;
+ while (lo <= hi) {
+ int mid = (lo + hi) / 2;
+ GINAC_ASSERT(is_ex_exactly_of_type(seq[mid].coeff, numeric));
+ int cmp = ex_to_numeric(seq[mid].coeff).compare(looking_for);
+ switch (cmp) {
+ case -1:
+ lo = mid + 1;
+ break;
+ case 0:
+ return seq[mid].rest;
+ case 1:
+ hi = mid - 1;
+ break;
+ default:
+ throw(std::logic_error("pseries::coeff: compare() didn't return -1, 0 or 1"));
+ }
+ }
+ return _ex0();
} else
return convert_to_poly().coeff(s, n);
}
+ex pseries::collect(const symbol &s) const
+{
+ if (var.is_equal(s))
+ return convert_to_poly();
+ else
+ return inherited::collect(s);
+}
+
ex pseries::eval(int level) const
{
if (level == 1)
return convert_to_poly().evalf(level);
}
-ex pseries::subs(lst const & ls, lst const & lr) const
+ex pseries::subs(const lst & ls, const lst & lr) const
{
// If expansion variable is being substituted, convert the series to a
// polynomial and do the substitution there because the result might
return (new pseries(var, point.subs(ls, lr), new_seq))->setflag(status_flags::dynallocated);
}
+/** Implementation of ex::diff() for a power series. It treats the series as a
+ * polynomial.
+ * @see ex::diff */
+ex pseries::derivative(const symbol & s) const
+{
+ if (s == var) {
+ epvector new_seq;
+ epvector::const_iterator it = seq.begin(), itend = seq.end();
+
+ // FIXME: coeff might depend on var
+ while (it != itend) {
+ if (is_order_function(it->rest)) {
+ new_seq.push_back(expair(it->rest, it->coeff - 1));
+ } else {
+ ex c = it->rest * it->coeff;
+ if (!c.is_zero())
+ new_seq.push_back(expair(c, it->coeff - 1));
+ }
+ it++;
+ }
+ return pseries(var, point, new_seq);
+ } else {
+ return *this;
+ }
+}
+
/*
* Construct ordinary polynomial out of series
/** Default implementation of ex::series(). This performs Taylor expansion.
* @see ex::series */
-ex basic::series(symbol const & s, ex const & point, int order) const
+ex basic::series(const symbol & s, const ex & point, int order) const
{
epvector seq;
numeric fac(1);
/** Implementation of ex::series() for symbols.
* @see ex::series */
-ex symbol::series(symbol const & s, ex const & point, int order) const
+ex symbol::series(const symbol & s, const ex & point, int order) const
{
epvector seq;
if (is_equal(s)) {
}
-/** Add one series object to another, producing a pseries object that represents
- * the sum.
+/** Add one series object to another, producing a pseries object that
+ * represents the sum.
*
* @param other pseries object to add with
* @return the sum as a pseries */
/** Implementation of ex::series() for sums. This performs series addition when
* adding pseries objects.
* @see ex::series */
-ex add::series(symbol const & s, ex const & point, int order) const
+ex add::series(const symbol & s, const ex & point, int order) const
{
ex acc; // Series accumulator
}
-/** Multiply a pseries object with a numeric constant, producing a pseries object
- * that represents the product.
+/** Multiply a pseries object with a numeric constant, producing a pseries
+ * object that represents the product.
*
* @param other constant to multiply with
* @return the product as a pseries */
/** Implementation of ex::series() for product. This performs series
* multiplication when multiplying series.
* @see ex::series */
-ex mul::series(symbol const & s, ex const & point, int order) const
+ex mul::series(const symbol & s, const ex & point, int order) const
{
ex acc; // Series accumulator
/** Implementation of ex::series() for powers. This performs Laurent expansion
* of reciprocals of series at singularities.
* @see ex::series */
-ex power::series(symbol const & s, ex const & point, int order) const
+ex power::series(const symbol & s, const ex & point, int order) const
{
ex e;
if (!is_ex_exactly_of_type(basis, pseries)) {
}
+/** Re-expansion of a pseries object. */
+ex pseries::series(const symbol & s, const ex & p, int order) const
+{
+ if (var.is_equal(s) && point.is_equal(p)) {
+ if (order > degree(s))
+ return *this;
+ else {
+ epvector new_seq;
+ epvector::const_iterator it = seq.begin(), itend = seq.end();
+ while (it != itend) {
+ int o = ex_to_numeric(it->coeff).to_int();
+ if (o >= order) {
+ new_seq.push_back(expair(Order(_ex1()), o));
+ break;
+ }
+ new_seq.push_back(*it);
+ it++;
+ }
+ return pseries(var, point, new_seq);
+ }
+ } else
+ return convert_to_poly().series(s, p, order);
+}
+
+
/** Compute the truncated series expansion of an expression.
* This function returns an expression containing an object of class pseries to
* represent the series. If the series does not terminate within the given
* @param point expansion point
* @param order truncation order of series calculations
* @return an expression holding a pseries object */
-ex ex::series(symbol const &s, ex const &point, int order) const
+ex ex::series(const symbol &s, const ex &point, int order) const
{
GINAC_ASSERT(bp!=0);
return bp->series(s, point, order);
// Global constants
const pseries some_pseries;
-type_info const & typeid_pseries = typeid(some_pseries);
+const type_info & typeid_pseries = typeid(some_pseries);
-#ifndef NO_GINAC_NAMESPACE
+#ifndef NO_NAMESPACE_GINAC
} // namespace GiNaC
-#endif // ndef NO_GINAC_NAMESPACE
+#endif // ndef NO_NAMESPACE_GINAC