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modified eemd.h to be compatible with c++

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张壹 2021-11-20 22:17:12 +08:00
parent b09fd62041
commit cf067ad2cd
4 changed files with 101 additions and 10 deletions
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2
CMakeLists.txt
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@ -1,6 +1,6 @@
cmake_minimum_required(VERSION 3.15.2)
#
project(LibEEMD VERSION 1.4.1 LANGUAGES C)
project(LibEEMD VERSION 1.4.1)
#
include(CMakePackageConfigHelpers)

10
src/CMakeLists.txt
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@ -84,5 +84,15 @@ macro(add_sample name)
target_link_libraries(${name} PUBLIC eemd)
endmacro()
macro(add_sample_cxx name)
#
add_executable(${name} examples/${name}.cpp)
# Windows
set_target_properties(${name} PROPERTIES INSTALL_RPATH ${CMAKE_INSTALL_PREFIX}/lib)
#
target_link_libraries(${name} PUBLIC eemd)
endmacro()
add_sample(eemd_example)
add_sample_cxx(eemd_example2)
add_sample(ceemdan_example)

73
src/examples/eemd_example2.cpp Normal file
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@ -0,0 +1,73 @@
/* Copyright 2013 Perttu Luukko
* This file is part of libeemd.
* libeemd is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
* libeemd is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with libeemd. If not, see <http://www.gnu.org/licenses/>.
*/
#include <math.h>
#include <iostream>
#include <fstream>
#include <gsl/gsl_math.h>
const double pi = M_PI;
#include "../lib/eemd.h"
const size_t ensemble_size = 250;
const unsigned int S_number = 4;
const unsigned int num_siftings = 50;
const double noise_strength = 0.2;
const unsigned long int rng_seed = 0;
const char outfile[] = "eemd_example2.out";
// An example signal to decompose
const size_t N = 1024;
static inline double input_signal(double x) {
const double omega = x/(N-1);
return 2*sin(30*pi*omega) + 4.0*sin(20*pi*omega)*sin(0.2*pi*omega) + sin(10*pi*omega);
}
int main(void) {
// Define input data
double* inp = new double [N];
for (size_t i=0; i<N; i++) {
inp[i] = input_signal((double)i);
}
// Allocate memory for output data
size_t M = emd_num_imfs(N);
double* outp = new double [M*N];
// Run eemd
libeemd_error_code err = eemd(inp, N, outp, M, ensemble_size, noise_strength, S_number, num_siftings, rng_seed);
if (err != EMD_SUCCESS) {
emd_report_if_error(err);
exit(1);
}
// Write output to file
std::ofstream fp;
fp.open(outfile);
// Output in columns
for (size_t j=0; j<N; j++) {
fp << inp[j] << " ";
for (size_t i=0; i<M; i++) {
fp << outp[i*N+j] << " ";
}
fp << "\n";
}
std::clog << "Done!\n";
// Cleanup
fp.close();
delete[] inp;
delete[] outp;
}

26
src/lib/eemd.h
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@ -45,6 +45,10 @@
#include <omp.h>
#endif
#ifdef __cplusplus
extern "C" {
#endif
// Possible error codes returned by functions eemd, ceemdan and
// emd_evaluate_spline
typedef enum {
@ -85,8 +89,8 @@ void emd_report_to_file_if_error(FILE* file, libeemd_error_code err);
// the sifting ends when either criterion is fulfilled. The final parameter is
// the seed given to the random number generator. A value of zero denotes a
// RNG-specific default value.
libeemd_error_code eemd(double const* restrict input, size_t N,
double* restrict output, size_t M,
libeemd_error_code eemd(double const* input, size_t N,
double* output, size_t M,
unsigned int ensemble_size, double noise_strength, unsigned int
S_number, unsigned int num_siftings, unsigned long int rng_seed);
@ -97,8 +101,8 @@ libeemd_error_code eemd(double const* restrict input, size_t N,
// (2011) 4144-4147
//
// Parameters are identical to routine eemd
libeemd_error_code ceemdan(double const* restrict input, size_t N,
double* restrict output, size_t M,
libeemd_error_code ceemdan(double const* input, size_t N,
double* output, size_t M,
unsigned int ensemble_size, double noise_strength, unsigned int
S_number, unsigned int num_siftings, unsigned long int rng_seed);
@ -108,9 +112,9 @@ libeemd_error_code ceemdan(double const* restrict input, size_t N,
// arrays for the coordinates must be at least size N. The method also counts
// the number of zero crossings in the data, and saves the results into the
// pointer given as num_zero_crossings_ptr.
void emd_find_extrema(double const* restrict x, size_t N,
double* restrict maxx, double* restrict maxy, size_t* num_max_ptr,
double* restrict minx, double* restrict miny, size_t* num_min_ptr,
void emd_find_extrema(double const* x, size_t N,
double* maxx, double* maxy, size_t* num_max_ptr,
double* minx, double* miny, size_t* num_min_ptr,
size_t* num_zero_crossings_ptr);
// Return the number of IMFs that can be extracted from input data of length N,
@ -129,7 +133,11 @@ size_t emd_num_imfs(size_t N);
//
// This routine is mainly exported so that it can be tested separately to
// produce identical results to the Matlab routine 'spline'.
libeemd_error_code emd_evaluate_spline(double const* restrict x, double const* restrict y,
size_t N, double* restrict spline_y, double* spline_workspace);
libeemd_error_code emd_evaluate_spline(double const* x, double const* y,
size_t N, double* spline_y, double* spline_workspace);
#ifdef __cplusplus
}
#endif
#endif // _EEMD_H_