RKF45: no not recompute k1 when decreasing step
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@ -89,8 +89,9 @@ int uk(
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} else if (algorithm==ALGORITHM_RK4) {
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} else if (algorithm==ALGORITHM_RK4) {
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ns_step_rk4(u, K1, K2, N1, N2, nu, step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, irreversible);
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ns_step_rk4(u, K1, K2, N1, N2, nu, step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, irreversible);
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} else if (algorithm==ALGORITHM_RKF45) {
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} else if (algorithm==ALGORITHM_RKF45) {
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ns_step_rkf45(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, irreversible);
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ns_step_rkf45(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, irreversible, true);
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} else if (algorithm==ALGORITHM_RKBS23) {
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} else if (algorithm==ALGORITHM_RKBS23) {
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// only compute k1 on the first step
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ns_step_rkbs23(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, &tmp1, tmp2, tmp3, &tmp4, tmp5, irreversible, time==starting_time);
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ns_step_rkbs23(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, &tmp1, tmp2, tmp3, &tmp4, tmp5, irreversible, time==starting_time);
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} else {
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} else {
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fprintf(stderr,"bug: unknown algorithm: %u, contact ian.jauslin@rutgers,edu\n",algorithm);
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fprintf(stderr,"bug: unknown algorithm: %u, contact ian.jauslin@rutgers,edu\n",algorithm);
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@ -194,8 +195,9 @@ int enstrophy(
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} else if (algorithm==ALGORITHM_RK4) {
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} else if (algorithm==ALGORITHM_RK4) {
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ns_step_rk4(u, K1, K2, N1, N2, nu, step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, irreversible);
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ns_step_rk4(u, K1, K2, N1, N2, nu, step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, irreversible);
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} else if (algorithm==ALGORITHM_RKF45) {
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} else if (algorithm==ALGORITHM_RKF45) {
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ns_step_rkf45(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, irreversible);
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ns_step_rkf45(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, irreversible, true);
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} else if (algorithm==ALGORITHM_RKBS23) {
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} else if (algorithm==ALGORITHM_RKBS23) {
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// only compute k1 on the first step
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ns_step_rkbs23(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, &tmp1, tmp2, tmp3, &tmp4, tmp5, irreversible, time==starting_time);
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ns_step_rkbs23(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, &tmp1, tmp2, tmp3, &tmp4, tmp5, irreversible, time==starting_time);
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} else {
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} else {
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fprintf(stderr,"bug: unknown algorithm: %u, contact ian.jauslin@rutgers,edu\n",algorithm);
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fprintf(stderr,"bug: unknown algorithm: %u, contact ian.jauslin@rutgers,edu\n",algorithm);
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@ -348,8 +350,9 @@ int quiet(
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} else if (algorithm==ALGORITHM_RK4) {
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} else if (algorithm==ALGORITHM_RK4) {
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ns_step_rk4(u, K1, K2, N1, N2, nu, step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, irreversible);
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ns_step_rk4(u, K1, K2, N1, N2, nu, step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, irreversible);
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} else if (algorithm==ALGORITHM_RKF45) {
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} else if (algorithm==ALGORITHM_RKF45) {
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ns_step_rkf45(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, irreversible);
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ns_step_rkf45(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, irreversible, true);
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} else if (algorithm==ALGORITHM_RKBS23) {
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} else if (algorithm==ALGORITHM_RKBS23) {
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// only compute k1 on the first step
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ns_step_rkbs23(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, &tmp1, tmp2, tmp3, &tmp4, tmp5, irreversible, time==starting_time);
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ns_step_rkbs23(u, adaptive_tolerance, adaptive_factor, K1, K2, N1, N2, nu, &step, &next_step, L, g, fft1, fft2, ifft, &tmp1, tmp2, tmp3, &tmp4, tmp5, irreversible, time==starting_time);
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} else {
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} else {
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fprintf(stderr,"bug: unknown algorithm: %u, contact ian.jauslin@rutgers,edu\n",algorithm);
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fprintf(stderr,"bug: unknown algorithm: %u, contact ian.jauslin@rutgers,edu\n",algorithm);
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@ -649,13 +652,17 @@ int ns_step_rkf45(
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_Complex double* k5,
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_Complex double* k5,
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_Complex double* k6,
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_Complex double* k6,
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_Complex double* tmp,
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_Complex double* tmp,
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bool irreversible
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bool irreversible,
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// whether to compute k1 or leave it as is
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bool compute_k1
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){
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){
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int kx,ky;
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int kx,ky;
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double err,relative;
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double err,relative;
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// k1: u(t)
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// k1: u(t)
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ns_rhs(k1, u, K1, K2, N1, N2, nu, L, g, fft1, fft2, ifft, irreversible);
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if(compute_k1){
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ns_rhs(k1, u, K1, K2, N1, N2, nu, L, g, fft1, fft2, ifft, irreversible);
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}
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// k2 : u(t+1/4*delta)
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// k2 : u(t+1/4*delta)
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for(kx=0;kx<=K1;kx++){
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for(kx=0;kx<=K1;kx++){
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@ -724,7 +731,8 @@ int ns_step_rkf45(
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// error too big: repeat with smaller step
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// error too big: repeat with smaller step
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else{
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else{
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*delta=factor*(*delta)*pow(relative*tolerance/err,0.2);
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*delta=factor*(*delta)*pow(relative*tolerance/err,0.2);
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ns_step_rkf45(u,tolerance,factor,K1,K2,N1,N2,nu,delta,next_delta,L,g,fft1,fft2,ifft,k1,k2,k3,k4,k5,k6,tmp,irreversible);
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// do not recompute k1
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ns_step_rkf45(u,tolerance,factor,K1,K2,N1,N2,nu,delta,next_delta,L,g,fft1,fft2,ifft,k1,k2,k3,k4,k5,k6,tmp,irreversible,false);
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}
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}
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return 0;
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return 0;
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@ -56,7 +56,7 @@ int ns_step_rk4( _Complex double* u, int K1, int K2, int N1, int N2, double nu,
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// RK2
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// RK2
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int ns_step_rk2( _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, bool irreversible);
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int ns_step_rk2( _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, bool irreversible);
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// adaptive RK algorithm (Runge-Kutta-Fehlberg)
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// adaptive RK algorithm (Runge-Kutta-Fehlberg)
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int ns_step_rkf45( _Complex double* u, double tolerance, double factor, int K1, int K2, int N1, int N2, double nu, double* delta, double* next_delta, double L, _Complex double* g, fft_vect fft1, fft_vect fft2, fft_vect ifft, _Complex double* k1, _Complex double* k2, _Complex double* k3, _Complex double* k4, _Complex double* k5, _Complex double* k6, _Complex double* tmp, bool irreversible);
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int ns_step_rkf45( _Complex double* u, double tolerance, double factor, int K1, int K2, int N1, int N2, double nu, double* delta, double* next_delta, double L, _Complex double* g, fft_vect fft1, fft_vect fft2, fft_vect ifft, _Complex double* k1, _Complex double* k2, _Complex double* k3, _Complex double* k4, _Complex double* k5, _Complex double* k6, _Complex double* tmp, bool irreversible, bool compute_k1);
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// Runge-Kutta-Bogacki-Shampine
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// Runge-Kutta-Bogacki-Shampine
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int ns_step_rkbs23( _Complex double* u, double tolerance, double factor, int K1, int K2, int N1, int N2, double nu, double* delta, double* next_delta, double L, _Complex double* g, fft_vect fft1, fft_vect fft2, fft_vect ifft, _Complex double** k1, _Complex double* k2, _Complex double* k3, _Complex double** k4, _Complex double* tmp, bool irreversible, bool compute_k1);
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int ns_step_rkbs23( _Complex double* u, double tolerance, double factor, int K1, int K2, int N1, int N2, double nu, double* delta, double* next_delta, double L, _Complex double* g, fft_vect fft1, fft_vect fft2, fft_vect ifft, _Complex double** k1, _Complex double* k2, _Complex double* k3, _Complex double** k4, _Complex double* tmp, bool irreversible, bool compute_k1);
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