package ocaml-r
Objective Caml bindings for the R interpreter
Install
Dune Dependency
Authors
Maintainers
Sources
ocaml-r-0.6.0.tbz
sha256=8ecea70a631896b4328c465028b628a6bcbbb7dbad8571df69c0297ff9a088ca
sha512=ac77d473ba35f98f2ea4034db3be514720d4dadae2e12692d4a846ab6ee03db66a24b846a0f1cd1a2b9cd674dd89c45a82b7d78e884cb3b36f17afff64ffe72c
doc/src/ocaml-r.math/OCamlR_math.ml.html
Source file OCamlR_math.ml
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(*********************************************************************************) (* OCaml-R *) (* *) (* Copyright (C) 2008-2010 Institut National de Recherche en *) (* Informatique et en Automatique. All rights reserved. *) (* *) (* Copyright (C) 2009-2010 Guillaume Yziquel. All rights reserved. *) (* *) (* This program is free software; you can redistribute it and/or modify *) (* it under the terms of the GNU General Public License as *) (* published by the Free Software Foundation; either version 3 of the *) (* License, or any later version. *) (* *) (* This program is distributed in the hope that it will be useful, *) (* but WITHOUT ANY WARRANTY; without even the implied warranty of *) (* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *) (* GNU Library General Public License for more details. *) (* *) (* You should have received a copy of the GNU General Public *) (* License along with this program; if not, write to the Free Software *) (* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA *) (* 02111-1307 USA *) (* *) (* Contact: Maxence.Guesdon@inria.fr *) (* guillaume.yziquel@citycable.ch *) (*********************************************************************************) (** Bindings to the Rmath library. *) external pow : float -> float -> float = "ml_R_pow" external pow_di : float -> int -> float = "ml_R_pow_di" external norm_rand : unit -> float = "ml_norm_rand" external unif_rand : unit -> float = "ml_unif_rand" external exp_rand : unit -> float = "ml_exp_rand" external r_dnorm : x: float -> mean: float -> sd: float -> log: bool -> float = "ml_dnorm";; let dnorm ?(mean=0.0) ?(sd=1.0) ?(log=false) x = r_dnorm ~x ~mean ~sd ~log;; external r_pnorm : q:float -> mean:float -> sd:float -> lower_tail:bool -> logp:bool -> float = "ml_pnorm";; let pnorm ?(mean=0.0) ?(sd=1.0) ?(lower_tail=true) ?(logp=false) q = r_pnorm ~q ~mean ~sd ~lower_tail ~logp external r_qnorm : p:float -> mean:float -> sd:float -> lower_tail:bool -> logp:bool -> float = "ml_qnorm";; let qnorm ?(mean=0.0) ?(sd=1.0) ?(lower_tail=true) ?(logp=false) p = r_qnorm ~p ~mean ~sd ~lower_tail ~logp;; external r_rnorm : mean:float -> sd:float -> float = "ml_rnorm";; let rnorm ?(mean=0.0) ?(sd=1.0) () = r_rnorm ~mean ~sd;; external r_dunif : x: float -> min: float -> max: float -> log: bool -> float = "ml_dunif";; let dunif ?(min=0.0) ?(max=1.0) ?(log=false) x = r_dunif ~x ~min ~max ~log;; external r_punif : q:float -> min:float -> max:float -> lower_tail:bool -> logp:bool -> float = "ml_punif";; let punif ?(min=0.0) ?(max=1.0) ?(lower_tail=true) ?(logp=false) q = r_punif ~q ~min ~max ~lower_tail ~logp;; external r_qunif : p:float -> min:float -> max:float -> lower_tail:bool -> logp:bool -> float = "ml_qunif";; let qunif ?(min=0.0) ?(max=1.0) ?(lower_tail=true) ?(logp=false) p = r_qunif ~p ~min ~max ~lower_tail ~logp;; external r_runif : min:float -> max:float -> float = "ml_runif";; let runif ?(min=0.0) ?(max=1.0) () = r_runif ~min ~max;; external r_dgamma : x: float -> shape: float -> scale: float -> log: bool -> float = "ml_dgamma";; let dgamma ?(scale=1.0) ?(log=false) ~shape x = r_dgamma ~x ~shape ~scale ~log;; external r_pgamma : q:float -> shape:float -> scale:float -> lower_tail:bool -> logp:bool -> float = "ml_pgamma";; let pgamma ?(scale=1.0) ?(lower_tail=true) ?(logp=false) ~shape q = r_pgamma ~q ~shape ~scale ~lower_tail ~logp;; external r_qgamma : p:float -> shape:float -> scale:float -> lower_tail:bool -> logp:bool -> float = "ml_qgamma";; let qgamma ?(scale=1.0) ?(lower_tail=true) ?(logp=false) ~shape p = r_qgamma ~p ~shape ~scale ~lower_tail ~logp;; external r_rgamma : shape:float -> scale:float -> float = "ml_rgamma";; let rgamma ?(scale=1.0) shape = r_rgamma ~shape ~scale;; (* external log1mpx : float -> float = "ml_log1mpx";;*) external logspace_add : float -> float -> float = "ml_logspace_add";; external logspace_sub : float -> float -> float = "ml_logspace_sub";; external r_dbeta : x: float -> shape1: float -> shape2: float -> log: bool -> float = "ml_dbeta";; external r_dnbeta : x: float -> shape1: float -> shape2: float -> ncp: float -> log: bool -> float = "ml_dnbeta";; let dbeta ?ncp ?(log=false) ~a ~b x = match ncp with None -> r_dbeta ~x ~shape1:a ~shape2:b ~log | Some ncp -> r_dnbeta ~x ~shape1:a ~shape2:b ~ncp ~log ;; external r_pbeta : q:float -> shape1:float -> shape2:float -> lower_tail:bool -> logp:bool -> float = "ml_pbeta";; external r_pnbeta : q:float -> shape1:float -> shape2:float -> ncp:float -> lower_tail:bool -> logp:bool -> float = "ml_pnbeta_bc" "ml_pnbeta";; let pbeta ?ncp ?(lower_tail=true) ?(logp=false) ~a ~b q = match ncp with None -> r_pbeta ~q ~shape1: a ~shape2: b ~lower_tail ~logp | Some ncp -> r_pnbeta ~q ~shape1: a ~shape2: b ~ncp ~lower_tail ~logp ;; external r_qbeta : p:float -> shape1:float -> shape2:float -> lower_tail:bool -> logp:bool -> float = "ml_qbeta";; external r_qnbeta : p:float -> shape1:float -> shape2:float -> ncp:float -> lower_tail:bool -> logp:bool -> float = "ml_qnbeta_bc" "ml_qnbeta";; let qbeta ?ncp ?(lower_tail=true) ?(logp=false) ~a ~b p = match ncp with None -> r_qbeta ~p ~shape1: a ~shape2: b ~lower_tail ~logp | Some ncp -> r_qnbeta ~p ~shape1: a ~shape2: b ~ncp ~lower_tail ~logp ;; external r_rbeta : shape1:float -> shape2:float -> float = "ml_rbeta";; let rbeta ~a ~b = r_rbeta ~shape1:a ~shape2:b;; external r_dlnorm : x: float -> meanlog: float -> sdlog: float -> log: bool -> float = "ml_dlnorm";; let dlnorm ?(meanlog=0.0) ?(sdlog=1.0) ?(log=false) x = r_dlnorm ~x ~meanlog ~sdlog ~log;; external r_plnorm : q:float -> meanlog:float -> sdlog:float -> lower_tail:bool -> logp:bool -> float = "ml_plnorm";; let plnorm ?(meanlog=0.0) ?(sdlog=1.0) ?(lower_tail=true) ?(logp=false) q = r_plnorm ~q ~meanlog ~sdlog ~lower_tail ~logp;; external r_qlnorm : p:float -> meanlog:float -> sdlog:float -> lower_tail:bool -> logp:bool -> float = "ml_qlnorm";; let qlnorm ?(meanlog=0.0) ?(sdlog=1.0) ?(lower_tail=true) ?(logp=false) p = r_qlnorm ~p ~meanlog ~sdlog ~lower_tail ~logp;; external r_rlnorm : meanlog:float -> sdlog:float -> float = "ml_rlnorm";; let rlnorm ?(meanlog=0.0) ?(sdlog=1.0) () = r_rlnorm ~meanlog ~sdlog;; external r_dchisq : x: float -> df: float -> log: bool -> float = "ml_dchisq";; external r_dnchisq : x: float -> df: float -> ncp: float -> log: bool -> float = "ml_dnchisq";; let dchisq ?ncp ?(log=false) ~df x = match ncp with None -> r_dchisq ~x ~df ~log | Some ncp -> r_dnchisq ~x ~df ~ncp ~log ;; external r_pchisq : q:float -> df:float -> lower_tail:bool -> logp:bool -> float = "ml_pchisq";; external r_pnchisq : q:float -> df:float -> ncp: float -> lower_tail:bool -> logp:bool -> float = "ml_pnchisq";; let pchisq ?ncp ?(lower_tail=true) ?(logp=false) ~df q = match ncp with None -> r_pchisq ~q ~df ~lower_tail ~logp | Some ncp -> r_pnchisq ~q ~df ~ncp ~lower_tail ~logp ;; external r_qchisq : p:float -> df:float -> lower_tail:bool -> logp:bool -> float = "ml_qchisq";; external r_qnchisq : p:float -> df:float -> ncp: float -> lower_tail:bool -> logp:bool -> float = "ml_qnchisq";; let qchisq ?ncp ?(lower_tail=true) ?(logp=false) ~df p = match ncp with None -> r_qchisq ~p ~df ~lower_tail ~logp | Some ncp -> r_qnchisq ~p ~df ~ncp ~lower_tail ~logp;; external r_rchisq : df:float -> float = "ml_rchisq";; external r_rnchisq : df:float -> ncp:float -> float = "ml_rnchisq";; let rchisq ?ncp df = match ncp with None -> r_rchisq ~df | Some ncp -> r_rnchisq ~df ~ncp ;; external r_df : x: float -> df1: float -> df2: float -> log: bool -> float = "ml_df";; external r_dnf : x: float -> df1: float -> df2: float -> ncp: float -> log: bool -> float = "ml_dnf";; let df ?ncp ?(log=false) ~df1 ~df2 x = match ncp with None -> r_df ~x ~df1 ~df2 ~log | Some ncp -> r_dnf ~x ~df1 ~df2 ~ncp ~log ;; external r_pf : q:float -> df1:float -> df2:float -> lower_tail:bool -> logp:bool -> float = "ml_pnf";; external r_pnf : q:float -> df1:float -> df2:float -> ncp: float -> lower_tail:bool -> logp:bool -> float = "ml_pnf_bc" "ml_pnf";; let pf ?ncp ?(lower_tail=true) ?(logp=false) ~df1 ~df2 q = match ncp with None -> r_pf ~q ~df1 ~df2 ~lower_tail ~logp | Some ncp -> r_pnf ~q ~df1 ~df2 ~ncp ~lower_tail ~logp ;; external r_qf : p:float -> df1:float -> df2:float -> lower_tail:bool -> logp:bool -> float = "ml_qf";; external r_qnf : p:float -> df1:float -> df2:float -> ncp: float -> lower_tail:bool -> logp:bool -> float = "ml_qnf_bc" "ml_qnf";; let qf ?ncp ?(lower_tail=true) ?(logp=false) ~df1 ~df2 p = match ncp with None -> r_qf ~p ~df1 ~df2 ~lower_tail ~logp | Some ncp -> r_qnf ~p ~df1 ~df2 ~ncp ~lower_tail ~logp;; external rf : df1:float -> df2:float -> float = "ml_rf";; external r_dt : x: float -> df: float -> log: bool -> float = "ml_dt";; external r_dnt : x: float -> df: float -> ncp: float -> log: bool -> float = "ml_dnt";; let dt ?ncp ?(log=false) ~df x = match ncp with None -> r_dt ~x ~df ~log | Some ncp -> r_dnt ~x ~df ~ncp ~log ;; external r_pt : q:float -> df:float -> lower_tail:bool -> logp:bool -> float = "ml_pt";; external r_pnt : q:float -> df:float -> ncp: float -> lower_tail:bool -> logp:bool -> float = "ml_pnt";; let pt ?ncp ?(lower_tail=true) ?(logp=false) ~df q = match ncp with None -> r_pt ~q ~df ~lower_tail ~logp | Some ncp -> r_pnt ~q ~df ~ncp ~lower_tail ~logp ;; external r_qt : p:float -> df:float -> lower_tail:bool -> logp:bool -> float = "ml_qt";; external r_qnt : p:float -> df:float -> ncp: float -> lower_tail:bool -> logp:bool -> float = "ml_qnt";; let qt ?ncp ?(lower_tail=true) ?(logp=false) ~df p = match ncp with None -> r_qt ~p ~df ~lower_tail ~logp | Some ncp -> r_qnt ~p ~df ~ncp ~lower_tail ~logp;; external rt : float -> float = "ml_rt";; external r_dbinom : x: float -> size: float -> prob: float -> log: bool -> float = "ml_dbinom";; let dbinom ?(log=false) ~size ~prob x = r_dbinom ~x ~size ~prob ~log;; external r_pbinom : q:float -> size:float -> prob:float -> lower_tail:bool -> logp:bool -> float = "ml_pbinom";; let pbinom ?(lower_tail=true) ?(logp=false) ~size ~prob q = r_pbinom ~q ~size ~prob ~lower_tail ~logp;; external r_qbinom : p:float -> size:float -> prob:float -> lower_tail:bool -> logp:bool -> float = "ml_qbinom";; let qbinom ?(lower_tail=true) ?(logp=false) ~size ~prob p = r_qbinom ~p ~size ~prob ~lower_tail ~logp;; external rbinom : size:float -> prob:float -> float = "ml_rbinom";; external r_dcauchy : x: float -> location: float -> scale: float -> log: bool -> float = "ml_dcauchy";; let dcauchy ?(location=0.0) ?(scale=1.0) ?(log=false) x = r_dcauchy ~x ~location ~scale ~log;; external r_pcauchy : q:float -> location:float -> scale:float -> lower_tail:bool -> logp:bool -> float = "ml_pcauchy";; let pcauchy ?(location=0.0) ?(scale=1.0) ?(lower_tail=true) ?(logp=false) q = r_pcauchy ~q ~location ~scale ~lower_tail ~logp external r_qcauchy : p:float -> location:float -> scale:float -> lower_tail:bool -> logp:bool -> float = "ml_qcauchy";; let qcauchy ?(location=0.0) ?(scale=1.0) ?(lower_tail=true) ?(logp=false) p = r_qcauchy ~p ~location ~scale ~lower_tail ~logp;; external r_rcauchy : location:float -> scale:float -> float = "ml_rcauchy";; let rcauchy ?(location=0.0) ?(scale=1.0) () = r_rcauchy ~location ~scale;; external r_dexp : x: float -> rate: float -> log: bool -> float = "ml_dexp";; let dexp ?(rate=1.0) ?(log=false) x = r_dexp ~x ~rate ~log;; external r_pexp : q:float -> rate:float -> lower_tail:bool -> logp:bool -> float = "ml_pexp";; let pexp ?(rate=1.0) ?(lower_tail=true) ?(logp=false) q = r_pexp ~q ~rate ~lower_tail ~logp external r_qexp : p:float -> rate:float -> lower_tail:bool -> logp:bool -> float = "ml_qexp";; let qexp ?(rate=1.0) ?(lower_tail=true) ?(logp=false) p = r_qexp ~p ~rate ~lower_tail ~logp;; external r_rexp : rate:float -> float = "ml_rexp";; let rexp ?(rate=1.0) () = r_rexp ~rate;; external r_dgeom : x: float -> prob: float -> log: bool -> float = "ml_dgeom";; let dgeom ?(log=false) ~prob x = r_dgeom ~x ~prob ~log;; external r_pgeom : q:float -> prob:float -> lower_tail:bool -> logp:bool -> float = "ml_pgeom";; let pgeom ?(lower_tail=true) ?(logp=false) ~prob q = r_pgeom ~q ~prob ~lower_tail ~logp;; external r_qgeom : p:float -> prob:float -> lower_tail:bool -> logp:bool -> float = "ml_qgeom";; let qgeom ?(lower_tail=true) ?(logp=false) ~prob p = r_qgeom ~p ~prob ~lower_tail ~logp;; external rgeom : float -> float = "ml_rgeom";; external r_dhyper : x: float -> m:float -> n:float -> k:float -> log: bool -> float = "ml_dhyper";; let dhyper ?(log=false) ~m ~n ~k x = r_dhyper ~x ~m ~n ~k ~log;; external r_phyper : q:float -> m:float -> n:float -> k:float -> lower_tail:bool -> logp:bool -> float = "ml_phyper_bc" "ml_phyper";; let phyper ?(lower_tail=true) ?(logp=false) ~m ~n ~k q = r_phyper ~q ~m ~n ~k ~lower_tail ~logp;; external r_qhyper : p:float -> m:float -> n:float -> k:float -> lower_tail:bool -> logp:bool -> float = "ml_qhyper_bc" "ml_qhyper";; let qhyper ?(lower_tail=true) ?(logp=false) ~m ~n ~k p = r_qhyper ~p ~m ~n ~k ~lower_tail ~logp;; external rhyper : m:float -> n:float -> k:float -> float = "ml_rhyper";; external r_dnbinom : x: float -> size: float -> prob: float -> log: bool -> float = "ml_dnbinom";; let dnbinom ?(log=false) ~size ~prob x = r_dnbinom ~x ~size ~prob ~log;; external r_pnbinom : q:float -> size:float -> prob:float -> lower_tail:bool -> logp:bool -> float = "ml_pnbinom";; let pnbinom ?(lower_tail=true) ?(logp=false) ~size ~prob q = r_pnbinom ~q ~size ~prob ~lower_tail ~logp;; external r_qnbinom : p:float -> size:float -> prob:float -> lower_tail:bool -> logp:bool -> float = "ml_qnbinom";; let qnbinom ?(lower_tail=true) ?(logp=false) ~size ~prob p = r_qnbinom ~p ~size ~prob ~lower_tail ~logp;; external rnbinom : size:float -> prob:float -> float = "ml_rnbinom";; external r_dpois : x: float -> lambda: float -> log: bool -> float = "ml_dpois";; let dpois ?(log=false) ~lambda x = r_dpois ~x ~lambda ~log;; external r_ppois : q:float -> lambda:float -> lower_tail:bool -> logp:bool -> float = "ml_ppois";; let ppois ?(lower_tail=true) ?(logp=false) ~lambda q = r_ppois ~q ~lambda ~lower_tail ~logp external r_qpois : p:float -> lambda:float -> lower_tail:bool -> logp:bool -> float = "ml_qpois";; let qpois ?(lower_tail=true) ?(logp=false) ~lambda p = r_qpois ~p ~lambda ~lower_tail ~logp;; external r_rpois : lambda:float -> float = "ml_rpois";; let rpois lambda = r_rpois ~lambda;; external r_dweibull : x: float -> shape: float -> scale: float -> log: bool -> float = "ml_dweibull";; let dweibull ?(scale=1.0) ?(log=false) ~shape x = r_dweibull ~x ~shape ~scale ~log;; external r_pweibull : q:float -> shape:float -> scale:float -> lower_tail:bool -> logp:bool -> float = "ml_pweibull";; let pweibull ?(scale=1.0) ?(lower_tail=true) ?(logp=false) ~shape q = r_pweibull ~q ~shape ~scale ~lower_tail ~logp;; external r_qweibull : p:float -> shape:float -> scale:float -> lower_tail:bool -> logp:bool -> float = "ml_qweibull";; let qweibull ?(scale=1.0) ?(lower_tail=true) ?(logp=false) ~shape p = r_qweibull ~p ~shape ~scale ~lower_tail ~logp;; external r_rweibull : shape:float -> scale:float -> float = "ml_rweibull";; let rweibull ?(scale=1.0) shape = r_rweibull ~shape ~scale;; external r_dlogis : x: float -> location: float -> scale: float -> log: bool -> float = "ml_dlogis";; let dlogis ?(location=0.0) ?(scale=1.0) ?(log=false) x = r_dlogis ~x ~location ~scale ~log;; external r_plogis : q:float -> location:float -> scale:float -> lower_tail:bool -> logp:bool -> float = "ml_plogis";; let plogis ?(location=0.0) ?(scale=1.0) ?(lower_tail=true) ?(logp=false) q = r_plogis ~q ~location ~scale ~lower_tail ~logp external r_qlogis : p:float -> location:float -> scale:float -> lower_tail:bool -> logp:bool -> float = "ml_qlogis";; let qlogis ?(location=0.0) ?(scale=1.0) ?(lower_tail=true) ?(logp=false) p = r_qlogis ~p ~location ~scale ~lower_tail ~logp;; external r_rlogis : location:float -> scale:float -> float = "ml_rlogis";; let rlogis ?(location=0.0) ?(scale=1.0) () = r_rlogis ~location ~scale;; external r_ptukey : q:float -> nmeans:float -> df:float -> nranges:float -> lower_tail:bool -> logp:bool -> float = "ml_ptukey_bc" "ml_ptukey";; let ptukey ?(nranges=1.0) ?(lower_tail=true) ?(logp=false) ~nmeans ~df q = r_ptukey ~q ~nmeans ~df ~nranges ~lower_tail ~logp;; external r_qtukey : p:float -> nmeans:float -> df:float -> nranges:float -> lower_tail:bool -> logp:bool -> float = "ml_qtukey_bc" "ml_qtukey";; let qtukey ?(nranges=1.0) ?(lower_tail=true) ?(logp=false) ~nmeans ~df p = r_qtukey ~p ~nmeans ~df ~nranges ~lower_tail ~logp;; external r_dwilcox : x: float -> m:float -> n:float -> log: bool -> float = "ml_dwilcox";; let dwilcox ?(log=false) ~m ~n x = r_dwilcox ~x ~m ~n ~log;; external r_pwilcox : q:float -> m:float -> n:float -> lower_tail:bool -> logp:bool -> float = "ml_pwilcox";; let pwilcox ?(lower_tail=true) ?(logp=false) ~m ~n q = r_pwilcox ~q ~m ~n ~lower_tail ~logp;; external r_qwilcox : p:float -> m:float -> n:float -> lower_tail:bool -> logp:bool -> float = "ml_qwilcox";; let qwilcox ?(lower_tail=true) ?(logp=false) ~m ~n p = r_qwilcox ~p ~m ~n ~lower_tail ~logp;; external rwilcox : m:float -> n:float -> float = "ml_rwilcox";; external r_dsignrank : x: float -> n: float -> log: bool -> float = "ml_dsignrank";; let dsignrank ?(log=false) ~n x = r_dsignrank ~x ~n ~log;; external r_psignrank : q:float -> n:float -> lower_tail:bool -> logp:bool -> float = "ml_psignrank";; let psignrank ?(lower_tail=true) ?(logp=false) ~n q = r_psignrank ~q ~n ~lower_tail ~logp external r_qsignrank : p:float -> n:float -> lower_tail:bool -> logp:bool -> float = "ml_qsignrank";; let qsignrank ?(lower_tail=true) ?(logp=false) ~n p = r_qsignrank ~p ~n ~lower_tail ~logp;; external r_rsignrank : n:float -> float = "ml_rsignrank";; let rsignrank n = r_rsignrank ~n;; external gammafn : float -> float = "ml_gammafn";; external lgammafn : float -> float = "ml_lgammafn";; (*void dpsifn(double, int, int, int, double*, int*, int* );*) external psigamma : x:float -> deriv: float -> float = "ml_psigamma";; let psigamma ?(deriv=0.0) x = psigamma ~x ~deriv;; external digamma : float -> float = "ml_digamma";; external trigamma : float -> float = "ml_trigamma";; external beta: a:float -> b:float -> float = "ml_beta";; external lbeta: a:float -> b:float -> float = "ml_lbeta";; external choose: n:float -> k:float -> float = "ml_choose";; external lchoose: n:float -> k:float -> float = "ml_lchoose";; external r_bessel_i: x:float -> nu:float -> expon_scaled:float -> float = "ml_bessel_i";; let bessel_i ?(expon_scaled=true) ~nu x = let expon_scaled = if expon_scaled then 1.0 else 0.0 in r_bessel_i ~x ~nu ~expon_scaled ;; external r_bessel_k : x:float -> nu:float -> expon_scaled:float -> float = "ml_bessel_k";; let bessel_k ?(expon_scaled=true) ~nu x = let expon_scaled = if expon_scaled then 1.0 else 0.0 in r_bessel_k ~x ~nu ~expon_scaled ;; external bessel_j : x:float -> nu:float -> float = "ml_bessel_j";; external bessel_y : x:float -> nu:float -> float = "ml_bessel_y";; external sign: float -> float = "ml_sign";; external ftrunc: float -> float = "ml_ftrunc";; external r_round: x:float -> digits:float -> float = "ml_fround";; let fround ?(digits=0) x = r_round ~x ~digits: (float digits);; external r_fsign: x:float -> digits:float -> float = "ml_fsign";; let fsign ?(digits=0) x = r_fsign ~x ~digits: (float digits);; external log1pmx: float -> float = "ml_log1pmx";; external lgamma1p: float -> float = "ml_lgamma1p";;
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