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inst/examples/cvs_Roberts_dns.r
In sundialr: An Interface to 'SUNDIALS' Ordinary Differential Equation (ODE) Solvers
# Example of solving a set sensitivity equations for ODEs with cvodes function
# ODEs described by an R function
ODE_R <- function(t, y, p){
# vector containing the right hand side gradients
ydot = vector(mode = "numeric", length = length(y))
# R indices start from 1
ydot[1] = -p[1]*y[1] + p[2]*y[2]*y[3]
ydot[2] = p[1]*y[1] - p[2]*y[2]*y[3] - p[3]*y[2]*y[2]
ydot[3] = p[3]*y[2]*y[2]
# ydot[1] = -0.04 * y[1] + 10000 * y[2] * y[3]
# ydot[3] = 30000000 * y[2] * y[2]
# ydot[2] = -ydot[1] - ydot[3]
ydot
}
# ODEs can also be described using Rcpp
Rcpp::sourceCpp(code = '
#include <Rcpp.h>
using namespace Rcpp;
// ODE functions defined using Rcpp
// [[Rcpp::export]]
NumericVector ODE_Rcpp (double t, NumericVector y, NumericVector p){
// Initialize ydot filled with zeros
NumericVector ydot(y.length());
ydot[0] = -p[0]*y[0] + p[1]*y[1]*y[2];
ydot[1] = p[0]*y[0] - p[1]*y[1]*y[2] - p[2]*y[1]*y[1];
ydot[2] = p[2]*y[1]*y[1];
return ydot;
}')
# R code to genrate time vector, IC and solve the equations
time_vec <- c(0.0, 0.4, 4.0, 40.0, 4E2, 4E3, 4E4, 4E5, 4E6, 4E7, 4E8, 4E9, 4E10)
IC <- c(1,0,0)
params <- c(0.04, 10000, 30000000)
reltol <- 1e-04
abstol <- c(1e-8,1e-14,1e-6)
## Solving the ODEs and Sensitivities using cvodes function
df1 <- cvodes(time_vec, IC, ODE_R , params, reltol, abstol,"STG",FALSE) ## using R
df2 <- cvodes(time_vec, IC, ODE_Rcpp , params, reltol, abstol,"STG",FALSE) ## using Rcpp
## Check that both solutions are identical
# identical(df1, df2)
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sundialr documentation built on May 16, 2021, 5:06 p.m.
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# Example of solving a set sensitivity equations for ODEs with cvodes function
# ODEs described by an R function
ODE_R <- function(t, y, p){
# vector containing the right hand side gradients
ydot = vector(mode = "numeric", length = length(y))
# R indices start from 1
ydot[1] = -p[1]*y[1] + p[2]*y[2]*y[3]
ydot[2] = p[1]*y[1] - p[2]*y[2]*y[3] - p[3]*y[2]*y[2]
ydot[3] = p[3]*y[2]*y[2]
# ydot[1] = -0.04 * y[1] + 10000 * y[2] * y[3]
# ydot[3] = 30000000 * y[2] * y[2]
# ydot[2] = -ydot[1] - ydot[3]
ydot
}
# ODEs can also be described using Rcpp
Rcpp::sourceCpp(code = '
#include <Rcpp.h>
using namespace Rcpp;
// ODE functions defined using Rcpp
// [[Rcpp::export]]
NumericVector ODE_Rcpp (double t, NumericVector y, NumericVector p){
// Initialize ydot filled with zeros
NumericVector ydot(y.length());
ydot[0] = -p[0]*y[0] + p[1]*y[1]*y[2];
ydot[1] = p[0]*y[0] - p[1]*y[1]*y[2] - p[2]*y[1]*y[1];
ydot[2] = p[2]*y[1]*y[1];
return ydot;
}')
# R code to genrate time vector, IC and solve the equations
time_vec <- c(0.0, 0.4, 4.0, 40.0, 4E2, 4E3, 4E4, 4E5, 4E6, 4E7, 4E8, 4E9, 4E10)
IC <- c(1,0,0)
params <- c(0.04, 10000, 30000000)
reltol <- 1e-04
abstol <- c(1e-8,1e-14,1e-6)
## Solving the ODEs and Sensitivities using cvodes function
df1 <- cvodes(time_vec, IC, ODE_R , params, reltol, abstol,"STG",FALSE) ## using R
df2 <- cvodes(time_vec, IC, ODE_Rcpp , params, reltol, abstol,"STG",FALSE) ## using Rcpp
## Check that both solutions are identical
# identical(df1, df2)
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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