2012-10-06 18:49:06 +02:00
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#ifndef __COSMOTOOL_FOURIER_EUCLIDIAN_HPP
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#define __COSMOTOOL_FOURIER_EUCLIDIAN_HPP
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2012-11-10 15:02:08 +01:00
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#include <boost/function.hpp>
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2012-10-06 18:49:06 +02:00
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#include <vector>
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#include <boost/shared_ptr.hpp>
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2012-11-10 15:02:08 +01:00
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#include <gsl/gsl_randist.h>
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#include "base_types.hpp"
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#include "fft/fftw_calls.hpp"
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#include "../algo.hpp"
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namespace CosmoTool
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{
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template<typename T>
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class EuclidianSpectrum_1D: public SpectrumFunction<T>
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{
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public:
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typedef boost::function1<T, T> Function;
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protected:
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Function f;
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public:
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typedef typename SpectrumFunction<T>::FourierMapType FourierMapType;
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typedef boost::shared_ptr<FourierMapType> ptr_map;
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EuclidianSpectrum_1D(Function P)
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: f(P)
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{
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}
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ptr_map newRandomFourier(gsl_rng *rng, const FourierMapType& like_map) const;
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void mul(FourierMap<std::complex<T> >& m) const;
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void mul_sqrt(FourierMap<std::complex<T> >& m) const;
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void mul_inv(FourierMap<std::complex<T> >& m) const;
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void mul_inv_sqrt(FourierMap<std::complex<T> >& m) const;
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};
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template<typename T>
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class EuclidianFourierMapBase: public FourierMap<T>
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{
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public:
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typedef std::vector<int> DimArray;
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private:
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boost::shared_ptr<T> m_data;
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DimArray m_dims;
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long m_size;
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public:
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EuclidianFourierMapBase(boost::shared_ptr<T> indata, const DimArray& indims)
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{
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m_data = indata;
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m_dims = indims;
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m_size = 1;
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for (int i = 0; i < m_dims.size(); i++)
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m_size *= m_dims[i];
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}
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virtual ~EuclidianFourierMapBase()
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{
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}
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const DimArray& getDims() const { return m_dims; }
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virtual const T *data() const { return m_data.get(); }
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virtual T *data() { return m_data.get(); }
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virtual long size() const { return m_size; }
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virtual FourierMap<T> *copy() const
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{
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FourierMap<T> *m = this->mimick();
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m->eigen() = this->eigen();
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return m;
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}
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};
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template<typename T>
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class EuclidianFourierMapReal: public EuclidianFourierMapBase<T>
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{
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public:
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typedef typename EuclidianFourierMapBase<T>::DimArray DimArray;
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EuclidianFourierMapReal(boost::shared_ptr<T> indata, const DimArray& indims)
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: EuclidianFourierMapBase<T>(indata, indims)
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{}
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virtual FourierMap<T> *mimick() const
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{
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return new EuclidianFourierMapReal<T>(
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boost::shared_ptr<T>((T *)fftw_malloc(sizeof(T)*this->size()),
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std::ptr_fun(fftw_free)),
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this->getDims());
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}
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virtual T dot_product(const FourierMap<T>& other) const
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throw(std::bad_cast)
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{
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const EuclidianFourierMapReal<T>& m2 = dynamic_cast<const EuclidianFourierMapReal<T>&>(other);
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if (this->size() != m2.size())
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throw std::bad_cast();
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return (this->eigen()*m2.eigen()).sum();
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}
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};
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template<typename T>
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class EuclidianFourierMapComplex: public EuclidianFourierMapBase<std::complex<T> >
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{
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protected:
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typedef boost::shared_ptr<std::complex<T> > ptr_t;
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std::vector<double> delta_k;
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long plane_size;
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public:
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typedef typename EuclidianFourierMapBase<std::complex<T> >::DimArray DimArray;
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EuclidianFourierMapComplex(ptr_t indata,
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const DimArray& indims,
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const std::vector<double>& dk)
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: EuclidianFourierMapBase<std::complex<T> >(indata, indims), delta_k(dk)
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{
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assert(dk.size() == indims.size());
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plane_size = 1;
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for (int q = 1; q < indims.size(); q++)
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plane_size *= indims[q];
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}
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virtual FourierMap<std::complex<T> > *mimick() const
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{
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return
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new EuclidianFourierMapComplex<T>(
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ptr_t((std::complex<T> *)
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fftw_malloc(sizeof(std::complex<T>)*this->size()),
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std::ptr_fun(fftw_free)),
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this->getDims(),
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this->delta_k);
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}
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template<typename Array>
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double get_K(const Array& ik)
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{
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const DimArray& dims = this->getDims();
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assert(ik.size() == dims.size());
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double k2 = 0;
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for (int q = 0; q < ik.size(); q++)
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{
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int dk = ik[q];
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if (dk > dims[q]/2)
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dk = dk - dims[q];
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k2 += CosmoTool::square(delta_k[q]*dk);
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}
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return std::sqrt(k2);
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}
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double get_K(long p)
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{
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const DimArray& dims = this->getDims();
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DimArray d(delta_k.size());
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for (int q = 0; q < d.size(); q++)
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{
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d[q] = p%dims[q];
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p = (p-d[q])/dims[q];
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}
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return get_K(d);
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}
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virtual std::complex<T> dot_product(const FourierMap<std::complex<T> >& other) const
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throw(std::bad_cast)
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{
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const EuclidianFourierMapComplex<T>& m2 = dynamic_cast<const EuclidianFourierMapComplex<T>&>(other);
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if (this->size() != m2.size())
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throw std::bad_cast();
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const std::complex<T> *d1 = this->data();
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const std::complex<T> *d2 = m2.data();
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const DimArray& dims = this->getDims();
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int N0 = dims[0];
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std::complex<T> result = 0;
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for (long q0 = 1; q0 < N0-1; q0++)
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{
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for (long p = 0; p < plane_size; p++)
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{
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long idx = q0+N0*p;
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assert(idx < this->size());
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result += 2*(conj(d1[idx]) * d2[idx]).real();
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}
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}
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for (long p = 0; p < plane_size; p++)
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{
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long q0 = N0*p, q1 = (p+1)*N0-1;
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result += conj(d1[q0]) * d2[q0];
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result += conj(d1[q1]) * d2[q1];
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}
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return result;
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}
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};
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template<typename T>
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class EuclidianFourierTransform: public FourierTransform<T>
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{
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public:
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typedef typename EuclidianFourierMapBase<T>::DimArray DimArray;
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private:
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typedef FFTW_Calls<T> calls;
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EuclidianFourierMapReal<T> *realMap;
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EuclidianFourierMapComplex<T> *fourierMap;
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typename calls::plan_type m_analysis, m_synthesis;
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double volume;
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long N;
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DimArray m_dims, m_dims_hc;
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std::vector<double> m_L;
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public:
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EuclidianFourierTransform(const DimArray& dims, const std::vector<double>& L)
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{
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assert(L.size() == dims.size());
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std::vector<double> dk(L.size());
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m_dims = dims;
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m_dims_hc = dims;
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m_dims_hc[0] = dims[0]/2+1;
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m_L = L;
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N = 1;
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volume = 1;
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for (int i = 0; i < dims.size(); i++)
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{
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N *= dims[i];
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volume *= L[i];
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dk[i] = 2*M_PI/L[i];
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}
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realMap = new EuclidianFourierMapReal<T>(
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boost::shared_ptr<T>(calls::alloc_real(N),
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std::ptr_fun(calls::free)),
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m_dims);
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fourierMap = new EuclidianFourierMapComplex<T>(
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boost::shared_ptr<std::complex<T> >((std::complex<T>*)calls::alloc_complex(N),
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std::ptr_fun(calls::free)),
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m_dims_hc, dk);
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m_analysis = calls::plan_dft_r2c(dims.size(), &dims[0],
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realMap->data(), (typename calls::complex_type *)fourierMap->data(),
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FFTW_MEASURE);
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m_synthesis = calls::plan_dft_c2r(dims.size(), &dims[0],
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(typename calls::complex_type *)fourierMap->data(), realMap->data(),
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FFTW_MEASURE);
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}
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virtual ~EuclidianFourierTransform()
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{
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delete realMap;
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delete fourierMap;
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calls::destroy_plan(m_synthesis);
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calls::destroy_plan(m_analysis);
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}
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void synthesis()
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{
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calls::execute(m_synthesis);
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realMap->scale(1/volume);
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}
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void analysis()
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{
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calls::execute(m_analysis);
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fourierMap->scale(volume/N);
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}
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void synthesis_conjugate()
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{
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calls::execute(m_analysis);
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fourierMap->scale(1/volume);
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}
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void analysis_conjugate()
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{
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calls::execute(m_synthesis);
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realMap->scale(volume/N);
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}
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const FourierMap<std::complex<T> >& fourierSpace() const
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{
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return *fourierMap;
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}
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FourierMap<std::complex<T> >& fourierSpace()
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{
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return *fourierMap;
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}
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const FourierMap<T>& realSpace() const
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{
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return *realMap;
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}
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FourierMap<T>& realSpace()
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{
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return *realMap;
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}
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FourierTransform<T> *mimick() const
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{
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return new EuclidianFourierTransform(m_dims, m_L);
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}
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};
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template<typename T>
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class EuclidianFourierTransform_2d: public EuclidianFourierTransform<T>
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{
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private:
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template<typename T2>
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static std::vector<T2> make_2d_vector(T2 a, T2 b)
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{
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T2 arr[2] = { a, b};
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return std::vector<T2>(&arr[0], &arr[2]);
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}
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public:
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EuclidianFourierTransform_2d(int Nx, int Ny, double Lx, double Ly)
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: EuclidianFourierTransform<T>(make_2d_vector<int>(Nx, Ny), make_2d_vector<double>(Lx, Ly))
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{
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}
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virtual ~EuclidianFourierTransform_2d() {}
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};
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template<typename T>
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class EuclidianFourierTransform_3d: public EuclidianFourierTransform<T>
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{
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private:
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template<typename T2>
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static std::vector<T2> make_3d_vector(T2 a, T2 b, T2 c)
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{
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T2 arr[2] = { a, b, c};
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return std::vector<T2>(&arr[0], &arr[3]);
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}
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public:
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EuclidianFourierTransform_3d(int Nx, int Ny, int Nz, double Lx, double Ly, double Lz)
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: EuclidianFourierTransform<T>(make_3d_vector<int>(Nx, Ny, Nz), make_3d_vector<double>(Lx, Ly, Lz))
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{
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}
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virtual ~EuclidianFourierTransform_3d() {}
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};
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2012-11-10 15:02:08 +01:00
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template<typename T>
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typename EuclidianSpectrum_1D<T>::ptr_map
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EuclidianSpectrum_1D<T>::newRandomFourier(gsl_rng *rng, const FourierMapType& like_map) const
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{
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typedef EuclidianFourierMapComplex<T> MapT;
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2012-11-10 23:35:27 +01:00
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typedef typename EuclidianSpectrum_1D<T>::ptr_map ptr_map;
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2012-11-10 15:02:08 +01:00
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typedef typename MapT::DimArray DimArray;
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2012-11-10 23:35:27 +01:00
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const MapT& m_c = dynamic_cast<const MapT&>(like_map);
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ptr_map ret_map = ptr_map(m_c.mimick());
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MapT& rand_map = dynamic_cast<MapT&>(*ret_map.get());
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std::complex<T> *d = rand_map.data();
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2012-11-10 15:02:08 +01:00
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long idx;
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2012-11-10 23:35:27 +01:00
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const DimArray& dims = rand_map.getDims();
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2012-11-10 15:02:08 +01:00
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long plane_size;
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for (long p = 1; p < m_c.size(); p++)
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{
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2012-11-10 23:35:27 +01:00
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double A_k = std::sqrt(0.5*f(rand_map.get_K(p)));
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2012-11-10 15:02:08 +01:00
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d[p] = std::complex<T>(gsl_ran_gaussian(rng, A_k),
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gsl_ran_gaussian(rng, A_k));
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}
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// Generate the mean value
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d[0] = std::complex<T>(std::sqrt(f(0)), 0);
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// Correct the Nyquist plane
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idx = dims[0]-1; // Stick to the last element of the first dimension
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// 1D is special case
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if (dims.size() == 1)
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{
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d[idx] = std::complex<T>(d[idx].real() + d[idx].imag(), 0);
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2012-11-10 23:35:27 +01:00
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return ret_map;
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2012-11-10 15:02:08 +01:00
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}
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plane_size = 1;
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for (int q = 1; q < dims.size(); q++)
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{
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plane_size *= dims[q];
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}
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for (long p = 1; p < plane_size/2; p++)
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{
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long q = (p+1)*dims[0]-1;
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long q2 = (plane_size-p+1)*dims[0]-1;
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assert(q < plane_size*dims[0]);
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assert(q2 < plane_size*dims[0]);
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d[q] = conj(d[q2]);
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}
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long q = dims[0];
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d[q] = std::complex<T>(d[q].real() + d[q].imag());
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2012-11-10 23:35:27 +01:00
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return ret_map;
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2012-11-10 15:02:08 +01:00
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}
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template<typename T>
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void EuclidianSpectrum_1D<T>::mul(FourierMap<std::complex<T> >& m) const
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{
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EuclidianFourierMapComplex<T>& m_c = dynamic_cast<EuclidianFourierMapComplex<T>&>(m);
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std::complex<T> *d = m.data();
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2012-10-06 18:49:06 +02:00
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2012-11-10 15:02:08 +01:00
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for (long p = 0; p < m_c.size(); p++)
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2012-11-10 23:35:27 +01:00
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d[p] *= f(m_c.get_K(p));
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}
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template<typename T>
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void EuclidianSpectrum_1D<T>::mul_sqrt(FourierMap<std::complex<T> >& m) const
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{
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EuclidianFourierMapComplex<T>& m_c = dynamic_cast<EuclidianFourierMapComplex<T>&>(m);
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std::complex<T> *d = m.data();
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for (long p = 0; p < m_c.size(); p++)
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d[p] *= std::sqrt(f(m_c.get_K(p)));
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}
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template<typename T>
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void EuclidianSpectrum_1D<T>::mul_inv(FourierMap<std::complex<T> >& m) const
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{
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EuclidianFourierMapComplex<T>& m_c = dynamic_cast<EuclidianFourierMapComplex<T>&>(m);
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std::complex<T> *d = m.data();
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for (long p = 0; p < m_c.size(); p++)
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{
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T A = f(m_c.get_K(p));
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if (A==0)
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d[p] = 0;
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else
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d[p] /= A;
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}
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}
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template<typename T>
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void EuclidianSpectrum_1D<T>::mul_inv_sqrt(FourierMap<std::complex<T> >& m) const
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{
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EuclidianFourierMapComplex<T>& m_c = dynamic_cast<EuclidianFourierMapComplex<T>&>(m);
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std::complex<T> *d = m.data();
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for (long p = 0; p < m_c.size(); p++)
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{
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T A = std::sqrt(f(m_c.get_K(p)));
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if (A == 0)
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d[p] = 0;
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else
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d[p] /= A;
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}
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2012-11-10 15:02:08 +01:00
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}
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2012-11-10 23:35:27 +01:00
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2012-10-06 18:49:06 +02:00
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};
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#endif
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