use crate::{MatrixF64, Value, VectorF64};
use ffi::FFI;
#[doc(alias = "gsl_multifit_covar")]
pub fn covar(J: &MatrixF64, epsrel: f64, covar: &mut MatrixF64) -> Result<(), Value> {
let ret = unsafe { sys::gsl_multifit_covar(J.unwrap_shared(), epsrel, covar.unwrap_unique()) };
result_handler!(ret, ())
}
#[doc(alias = "gsl_multifit_test_delta")]
pub fn test_delta(dx: &VectorF64, x: &VectorF64, epsabs: f64, epsrel: f64) -> Result<(), Value> {
let ret = unsafe {
sys::gsl_multifit_test_delta(dx.unwrap_shared(), x.unwrap_shared(), epsabs, epsrel)
};
result_handler!(ret, ())
}
#[doc(alias = "gsl_multifit_gradient")]
pub fn gradient(J: &MatrixF64, f: &VectorF64, g: &mut VectorF64) -> Result<(), Value> {
let ret = unsafe {
sys::gsl_multifit_gradient(J.unwrap_shared(), f.unwrap_shared(), g.unwrap_unique())
};
result_handler!(ret, ())
}
#[doc(alias = "gsl_multifit_linear_lreg")]
pub fn linear_lreg(smin: f64, smax: f64, reg_param: &mut VectorF64) -> Result<(), Value> {
let ret = unsafe { sys::gsl_multifit_linear_lreg(smin, smax, reg_param.unwrap_unique()) };
result_handler!(ret, ())
}
#[doc(alias = "gsl_multifit_linear_lcorner")]
pub fn linear_lcorner(rho: &VectorF64, eta: &VectorF64) -> Result<usize, Value> {
let mut idx = 0;
let ret = unsafe {
sys::gsl_multifit_linear_lcorner(rho.unwrap_shared(), eta.unwrap_shared(), &mut idx)
};
result_handler!(ret, idx)
}
#[doc(alias = "gsl_multifit_linear_lcorner2")]
pub fn linear_lcorner2(rho: &VectorF64, eta: &VectorF64) -> Result<usize, Value> {
let mut idx = 0;
let ret = unsafe {
sys::gsl_multifit_linear_lcorner2(rho.unwrap_shared(), eta.unwrap_shared(), &mut idx)
};
result_handler!(ret, idx)
}
#[doc(alias = "gsl_multifit_linear_Lk")]
pub fn linear_Lk(p: usize, k: usize, L: &mut MatrixF64) -> Result<(), Value> {
let ret = unsafe { sys::gsl_multifit_linear_Lk(p, k, L.unwrap_unique()) };
result_handler!(ret, ())
}