integrate_series_rep< C, V > Class Template Reference

#include <series.hpp>

Inheritance diagram for integrate_series_rep< C, V >:

List of all members.

Public Member Functions

• integrate_series_rep (const series< C, V > &f2)
• integrate_series_rep (const series< C, V > &f2, const C &c2)
• syntactic expression (const syntactic &z) const
• void Increase_order (nat l)
• C next ()

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Detailed Description

template<typename C, typename V>
class mmx::integrate_series_rep< C, V >

Definition at line 924 of file series.hpp.

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Constructor & Destructor Documentation

integrate_series_rep

(

const series< C, V > &

f2

)

[inline]

Definition at line 928 of file series.hpp.

                                         :
    Series_rep (CF(f2)), f (f2), c (promote (0, CF(f2))) {}

integrate_series_rep	(	const series< C, V > &	f2,
		const C &	c2
	)		[inline]

Definition at line 930 of file series.hpp.

                                                      :
    Series_rep (CF(f2)), f (f2), c (c2) {}

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Member Function Documentation

syntactic expression

(

const syntactic &

z

)

const [inline]

Definition at line 932 of file series.hpp.

References mmx::flatten(), mmx::integrate(), and mmx::integrate_init().

                                                  {
    if (c == promote (0, c)) return integrate (flatten (f, z));
    else return integrate_init (flatten (f, z), flatten (c)); }

void Increase_order

(

nat

l

)

[inline]

Definition at line 935 of file series.hpp.

References mmx::increase_order().

                              {
    Series_rep::Increase_order (l);
    increase_order (f, max (0, ((int) l) - 1)); }

C next

(

)

[inline]

Definition at line 938 of file series.hpp.

References mmx::invert().

            {
    if (this->n == 0) return c;
    return invert (promote ((int) this->n, c)) * f[this->n - 1]; }

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The documentation for this class was generated from the following file:

• /Users/mourrain/Devel/mmx/algebramix/include/algebramix/series.hpp