Driving force as vector instead of function
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@ -1,28 +1,40 @@
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#include "driving.h"
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#include "driving.h"
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#include "navier-stokes.h"
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#include <math.h>
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#include <math.h>
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_Complex double g_test(
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// test driving function
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int kx,
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int g_test(
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int ky
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_Complex double* g,
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int K1,
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int K2
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){
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){
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//return sqrt(kx*kx*ky*ky)*exp(-(kx*kx+ky*ky));
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int kx,ky;
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if(kx==2 && ky==-1){
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for(kx=-K1;kx<=K1;kx++){
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return 0.5+sqrt(3)/2*I;
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for (ky=-K2;ky<=K2;ky++){
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if(kx==2 && ky==-1){
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g[klookup(kx,ky,K1,K2)]=0.5+sqrt(3)/2*I;
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}
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else if(kx==-2 && ky==1){
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g[klookup(kx,ky,K1,K2)]=0.5-sqrt(3)/2*I;
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}
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else{
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g[klookup(kx,ky,K1,K2)]=0.;
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}
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}
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}
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}
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else if(kx==-2 && ky==1){
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return 0.5-sqrt(3)/2*I;
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return 0;
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}
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return 0.;
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}
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}
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#define UNUSED(x) (void)(x)
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int g_zero(
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_Complex double g_zero(
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_Complex double* g,
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int kx,
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int K1,
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int ky
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int K2
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){
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){
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// avoid unused variable warnings
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int i;
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UNUSED(kx);
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for(i=0;i<(2*K1+1)*(2*K2+1);i++){
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UNUSED(ky);
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g[i]=0.;
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return 0.;
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}
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}
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return 0;
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}
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@ -1,9 +1,7 @@
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#ifndef DRIVING_H
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#ifndef DRIVING_H
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#define DRIVING_H
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#define DRIVING_H
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#include <complex.h>
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int g_zero(_Complex double* g, int K1, int K2);
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int g_test(_Complex double* g, int K1, int K2);
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_Complex double g_zero( int kx, int ky);
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_Complex double g_test( int kx, int ky);
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#endif
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#endif
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41
src/main.c
41
src/main.c
@ -32,6 +32,8 @@ int read_args(int argc, const char* argv[], char** params, unsigned int* driving
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int read_params(char* param_str, nstrophy_parameters* parameters);
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int read_params(char* param_str, nstrophy_parameters* parameters);
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int set_parameter(char* lhs, char* rhs, nstrophy_parameters* parameters, bool* setN1, bool* setN2);
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int set_parameter(char* lhs, char* rhs, nstrophy_parameters* parameters, bool* setN1, bool* setN2);
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// set driving force
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_Complex double* set_driving(unsigned int driving, nstrophy_parameters parameters);
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// set initial condition
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// set initial condition
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_Complex double* set_init(unsigned int init, nstrophy_parameters parameters);
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_Complex double* set_init(unsigned int init, nstrophy_parameters parameters);
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@ -53,11 +55,11 @@ int main (
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){
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){
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char* param_str=NULL;
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char* param_str=NULL;
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nstrophy_parameters parameters;
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nstrophy_parameters parameters;
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_Complex double (*g)(int,int);
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int ret;
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int ret;
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unsigned int driving,command,init;
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unsigned int driving,command,init;
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unsigned int nthreads=1;
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unsigned int nthreads=1;
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_Complex double* u0;
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_Complex double* u0;
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_Complex double *g;
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command=0;
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command=0;
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driving=0;
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driving=0;
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@ -76,19 +78,7 @@ int main (
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}
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}
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// set driving force
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// set driving force
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switch(driving){
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g=set_driving(driving, parameters);
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case DRIVING_ZERO:
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g=g_zero;
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break;
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case DRIVING_TEST:
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g=g_test;
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break;
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default:
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g=g_zero;
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break;
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}
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// set initial condition
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// set initial condition
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u0=set_init(init, parameters);
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u0=set_init(init, parameters);
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@ -110,6 +100,7 @@ int main (
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print_usage();
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print_usage();
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}
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}
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free(g);
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free(u0);
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free(u0);
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return(0);
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return(0);
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@ -441,6 +432,28 @@ int set_parameter(
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return(0);
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return(0);
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}
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}
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// set driving force
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_Complex double* set_driving(
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unsigned int driving,
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nstrophy_parameters parameters
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){
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_Complex double* g=calloc(sizeof(_Complex double),(2*parameters.K1+1)*(2*parameters.K2+1));
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switch(driving){
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case DRIVING_ZERO:
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g_zero(g, parameters.K1, parameters.K2);
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break;
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case DRIVING_TEST:
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g_test(g, parameters.K1, parameters.K2);
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break;
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default:
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g_test(g, parameters.K1, parameters.K2);
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break;
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}
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return g;
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}
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// set initial condition
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// set initial condition
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_Complex double* set_init(
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_Complex double* set_init(
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unsigned int init,
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unsigned int init,
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@ -13,7 +13,7 @@ int uk(
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double delta,
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double delta,
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double L,
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double L,
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_Complex double* u0,
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_Complex double* u0,
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_Complex double (*g)(int,int),
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_Complex double* g,
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unsigned int print_freq,
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unsigned int print_freq,
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unsigned int nthreads
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unsigned int nthreads
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){
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){
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@ -80,7 +80,7 @@ int energy(
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double delta,
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double delta,
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double L,
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double L,
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_Complex double* u0,
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_Complex double* u0,
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_Complex double (*g)(int,int),
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_Complex double* g,
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unsigned int print_freq,
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unsigned int print_freq,
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unsigned int nthreads
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unsigned int nthreads
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){
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){
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@ -131,7 +131,7 @@ int enstrophy(
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double delta,
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double delta,
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double L,
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double L,
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_Complex double* u0,
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_Complex double* u0,
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_Complex double (*g)(int,int),
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_Complex double* g,
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unsigned int print_freq,
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unsigned int print_freq,
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unsigned int nthreads
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unsigned int nthreads
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){
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){
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@ -185,7 +185,7 @@ int quiet(
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double delta,
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double delta,
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double L,
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double L,
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_Complex double* u0,
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_Complex double* u0,
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_Complex double (*g)(int,int),
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_Complex double* g,
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unsigned int nthreads
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unsigned int nthreads
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){
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){
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_Complex double* u;
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_Complex double* u;
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@ -306,7 +306,7 @@ int ins_step(
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double nu,
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double nu,
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double delta,
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double delta,
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double L,
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double L,
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_Complex double (*g)(int,int),
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_Complex double* g,
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fft_vect fft1,
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fft_vect fft1,
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fft_vect fft2,
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fft_vect fft2,
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fft_vect ifft,
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fft_vect ifft,
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@ -383,7 +383,7 @@ int ins_rhs(
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int N2,
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int N2,
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double nu,
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double nu,
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double L,
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double L,
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_Complex double (*g)(int,int),
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_Complex double* g,
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fft_vect fft1,
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fft_vect fft1,
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fft_vect fft2,
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fft_vect fft2,
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fft_vect ifft
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fft_vect ifft
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@ -413,7 +413,7 @@ int ins_rhs(
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for(ky=-K2;ky<=K2;ky++){
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for(ky=-K2;ky<=K2;ky++){
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if(kx!=0 || ky!=0){
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if(kx!=0 || ky!=0){
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// enforce the reality of u by adding ifft.fft(k) and the conjugate of ifft.fft(-k)
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// enforce the reality of u by adding ifft.fft(k) and the conjugate of ifft.fft(-k)
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out[klookup(kx,ky,2*K1+1,2*K2+1)]=-4*M_PI*M_PI/L/L*nu*(kx*kx+ky*ky)*u[klookup(kx,ky,2*K1+1,2*K2+1)]+(*g)(kx,ky)+4*M_PI*M_PI/L/L/sqrt(kx*kx+ky*ky)*(ifft.fft[klookup(kx,ky,N1,N2)]+conj(ifft.fft[klookup(-kx,-ky,N1,N2)]))/2;
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out[klookup(kx,ky,2*K1+1,2*K2+1)]=-4*M_PI*M_PI/L/L*nu*(kx*kx+ky*ky)*u[klookup(kx,ky,2*K1+1,2*K2+1)]+g[klookup(kx,ky,2*K1+1,2*K2+1)]+4*M_PI*M_PI/L/L/sqrt(kx*kx+ky*ky)*(ifft.fft[klookup(kx,ky,N1,N2)]+conj(ifft.fft[klookup(-kx,-ky,N1,N2)]))/2;
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}
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}
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}
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}
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}
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}
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@ -535,7 +535,7 @@ _Complex double compute_alpha(
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_Complex double* u,
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_Complex double* u,
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int K1,
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int K1,
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int K2,
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int K2,
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_Complex double (*g)(int,int)
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_Complex double* g
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){
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){
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_Complex double num=0;
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_Complex double num=0;
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_Complex double denom=0;
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_Complex double denom=0;
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@ -544,7 +544,7 @@ _Complex double compute_alpha(
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for(kx=-K1;kx<=K1;kx++){
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for(kx=-K1;kx<=K1;kx++){
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for(ky=-K2;ky<=K2;ky++){
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for(ky=-K2;ky<=K2;ky++){
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denom+=(kx*kx+ky*ky)*(kx*kx+ky*ky)*u[klookup(kx,ky,2*K1+1,2*K2+1)]*conj(u[klookup(kx,ky,2*K1+1,2*K2+1)])*(1+(ky!=0?kx*kx/ky/ky:0));
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denom+=(kx*kx+ky*ky)*(kx*kx+ky*ky)*u[klookup(kx,ky,2*K1+1,2*K2+1)]*conj(u[klookup(kx,ky,2*K1+1,2*K2+1)])*(1+(ky!=0?kx*kx/ky/ky:0));
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num+=(kx*kx+ky*ky)*u[klookup(kx,ky,2*K1+1,2*K2+1)]*conj((*g)(kx,ky))*(1+(ky!=0?kx*kx/ky/ky:0));
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num+=(kx*kx+ky*ky)*u[klookup(kx,ky,2*K1+1,2*K2+1)]*conj(g[klookup(kx,ky,2*K1+1,2*K2+1)])*(1+(ky!=0?kx*kx/ky/ky:0));
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}
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}
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}
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}
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@ -13,16 +13,16 @@ typedef struct fft_vects {
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} fft_vect;
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} fft_vect;
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// compute u_k
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// compute u_k
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int uk( int K1, int K2, int N1, int N2, unsigned int nsteps, double nu, double delta, double L, _Complex double* u0, _Complex double (*g)(int,int), unsigned int print_freq, unsigned int nthreads);
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int uk( int K1, int K2, int N1, int N2, unsigned int nsteps, double nu, double delta, double L, _Complex double* u0, _Complex double* g, unsigned int print_freq, unsigned int nthreads);
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// compute the energy as a function of time
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// compute the energy as a function of time
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int energy( int K1, int K2, int N1, int N2, unsigned int nsteps, double nu, double delta, double L, _Complex double* u0, _Complex double (*g)(int,int), unsigned int print_freq, unsigned int nthreads);
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int energy( int K1, int K2, int N1, int N2, unsigned int nsteps, double nu, double delta, double L, _Complex double* u0, _Complex double* g, unsigned int print_freq, unsigned int nthreads);
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// compute enstrophy
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// compute enstrophy
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int enstrophy( int K1, int K2, int N1, int N2, unsigned int nsteps, double nu, double delta, double L, _Complex double* u0, _Complex double (*g)(int,int), unsigned int print_freq, unsigned int nthreads);
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int enstrophy( int K1, int K2, int N1, int N2, unsigned int nsteps, double nu, double delta, double L, _Complex double* u0, _Complex double* g, unsigned int print_freq, unsigned int nthreads);
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// compute solution as a function of time, but do not print anything (useful for debugging)
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// compute solution as a function of time, but do not print anything (useful for debugging)
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int quiet( int K1, int K2, int N1, int N2, unsigned int nsteps, double nu, double delta, double L, _Complex double* u0, _Complex double (*g)(int,int), unsigned int nthreads);
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int quiet( int K1, int K2, int N1, int N2, unsigned int nsteps, double nu, double delta, double L, _Complex double* u0, _Complex double* g, unsigned int nthreads);
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// initialize vectors for computation
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// initialize vectors for computation
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@ -34,10 +34,10 @@ int ns_free_tmps( _Complex double* u, _Complex double* tmp1, _Complex double *tm
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int copy_u( _Complex double* u, _Complex double* u0, int K1, int K2);
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int copy_u( _Complex double* u, _Complex double* u0, int K1, int K2);
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// next time step for Irreversible Navier-Stokes equation
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// next time step for Irreversible Navier-Stokes equation
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int ins_step( _Complex double* u, int K1, int K2, int N1, int N2, double nu, double delta, double L, _Complex double (*g)(int,int), fft_vect fft1, fft_vect fft2,fft_vect ifft, _Complex double* tmp1, _Complex double *tmp2, _Complex double *tmp3);
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int ins_step( _Complex double* u, int K1, int K2, int N1, int N2, double nu, double delta, double L, _Complex double* g, fft_vect fft1, fft_vect fft2,fft_vect ifft, _Complex double* tmp1, _Complex double *tmp2, _Complex double *tmp3);
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// right side of Irreversible Navier-Stokes equation
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// right side of Irreversible Navier-Stokes equation
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int ins_rhs( _Complex double* out, _Complex double* u, int K1, int K2, int N1, int N2, double nu, double L, _Complex double (*g)(int,int), fft_vect fft1, fft_vect fft2, fft_vect ifft);
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int ins_rhs( _Complex double* out, _Complex double* u, int K1, int K2, int N1, int N2, double nu, double L, _Complex double* g, fft_vect fft1, fft_vect fft2, fft_vect ifft);
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// convolution term in right side of equation
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// convolution term in right side of equation
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int ns_T( _Complex double* u, int K1, int K2, int N1, int N2, fft_vect fft1, fft_vect fft2, fft_vect ifft);
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int ns_T( _Complex double* u, int K1, int K2, int N1, int N2, fft_vect fft1, fft_vect fft2, fft_vect ifft);
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@ -46,7 +46,7 @@ int ns_T( _Complex double* u, int K1, int K2, int N1, int N2, fft_vect fft1, fft
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int ns_T_nofft( _Complex double* out, _Complex double* u, int K1, int K2, int N1, int N2);
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int ns_T_nofft( _Complex double* out, _Complex double* u, int K1, int K2, int N1, int N2);
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// compute alpha
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// compute alpha
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_Complex double compute_alpha( _Complex double* u, int K1, int K2, _Complex double (*g)(int,int));
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_Complex double compute_alpha( _Complex double* u, int K1, int K2, _Complex double* g);
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// get index for kx,ky in array of size S
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// get index for kx,ky in array of size S
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int klookup( int kx, int ky, int S1, int S2);
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int klookup( int kx, int ky, int S1, int S2);
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