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//
// A rust binding for the GSL library by Guillaume Gomez (guillaume1.gomez@gmail.com)
//
/*!
The Wigner 3-j, 6-j and 9-j symbols give the coupling coefficients for combined angular momentum vectors.
Since the arguments of the standard coupling coefficient functions are integer or half-integer, the arguments of the following functions
are, by convention, integers equal to twice the actual spin value.
!*/
use crate::{types, Value};
use std::mem::MaybeUninit;
/// This routine computes the Wigner 3-j coefficient,
///
/// (ja jb jc
/// ma mb mc)
///
/// where the arguments are given in half-integer units, ja = two_ja/2, ma = two_ma/2, etc.
#[doc(alias = "gsl_sf_coupling_3j")]
pub fn _3j(two_ja: i32, two_jb: i32, two_jc: i32, two_ma: i32, two_mb: i32, two_mc: i32) -> f64 {
unsafe { ::sys::gsl_sf_coupling_3j(two_ja, two_jb, two_jc, two_ma, two_mb, two_mc) }
}
/// This routine computes the Wigner 3-j coefficient,
///
/// (ja jb jc
/// ma mb mc)
///
/// where the arguments are given in half-integer units, ja = two_ja/2, ma = two_ma/2, etc.
#[doc(alias = "gsl_sf_coupling_3j_e")]
pub fn _3j_e(
two_ja: i32,
two_jb: i32,
two_jc: i32,
two_ma: i32,
two_mb: i32,
two_mc: i32,
) -> Result<types::Result, Value> {
let mut result = MaybeUninit::<sys::gsl_sf_result>::uninit();
let ret = unsafe {
::sys::gsl_sf_coupling_3j_e(
two_ja,
two_jb,
two_jc,
two_ma,
two_mb,
two_mc,
result.as_mut_ptr(),
)
};
result_handler!(ret, unsafe { result.assume_init() }.into())
}
/// This routine computes the Wigner 6-j coefficient,
///
/// {ja jb jc
/// jd je jf}
///
/// where the arguments are given in half-integer units, ja = two_ja/2, ma = two_ma/2, etc.
#[doc(alias = "gsl_sf_coupling_6j")]
pub fn _6j(two_ja: i32, two_jb: i32, two_jc: i32, two_jd: i32, two_je: i32, two_jf: i32) -> f64 {
unsafe { ::sys::gsl_sf_coupling_6j(two_ja, two_jb, two_jc, two_jd, two_je, two_jf) }
}
/// This routine computes the Wigner 6-j coefficient,
///
/// {ja jb jc
/// jd je jf}
///
/// where the arguments are given in half-integer units, ja = two_ja/2, ma = two_ma/2, etc.
#[doc(alias = "gsl_sf_coupling_6j_e")]
pub fn _6j_e(
two_ja: i32,
two_jb: i32,
two_jc: i32,
two_jd: i32,
two_je: i32,
two_jf: i32,
) -> Result<types::Result, Value> {
let mut result = MaybeUninit::<sys::gsl_sf_result>::uninit();
let ret = unsafe {
::sys::gsl_sf_coupling_6j_e(
two_ja,
two_jb,
two_jc,
two_jd,
two_je,
two_jf,
result.as_mut_ptr(),
)
};
result_handler!(ret, unsafe { result.assume_init() }.into())
}
/// This routine computes the Wigner 9-j coefficient,
///
/// {ja jb jc
/// jd je jf
/// jg jh ji}
/// where the arguments are given in half-integer units, ja = two_ja/2, ma = two_ma/2, etc.
#[doc(alias = "gsl_sf_coupling_9j")]
pub fn _9j(
two_ja: i32,
two_jb: i32,
two_jc: i32,
two_jd: i32,
two_je: i32,
two_jf: i32,
two_jg: i32,
two_jh: i32,
two_ji: i32,
) -> f64 {
unsafe {
::sys::gsl_sf_coupling_9j(
two_ja, two_jb, two_jc, two_jd, two_je, two_jf, two_jg, two_jh, two_ji,
)
}
}
/// This routine computes the Wigner 9-j coefficient,
///
/// {ja jb jc
/// jd je jf
/// jg jh ji}
/// where the arguments are given in half-integer units, ja = two_ja/2, ma = two_ma/2, etc.
#[doc(alias = "gsl_sf_coupling_9j_e")]
pub fn _9j_e(
two_ja: i32,
two_jb: i32,
two_jc: i32,
two_jd: i32,
two_je: i32,
two_jf: i32,
two_jg: i32,
two_jh: i32,
two_ji: i32,
) -> Result<types::Result, Value> {
let mut result = MaybeUninit::<sys::gsl_sf_result>::uninit();
let ret = unsafe {
::sys::gsl_sf_coupling_9j_e(
two_ja,
two_jb,
two_jc,
two_jd,
two_je,
two_jf,
two_jg,
two_jh,
two_ji,
result.as_mut_ptr(),
)
};
result_handler!(ret, unsafe { result.assume_init() }.into())
}