1158 lines
34 KiB
Perl
1158 lines
34 KiB
Perl
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% Author: Nicos Angelopoulos, Vitor Santos Costa, Jan Wielemaker
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% E-mail: Nicos Angelopoulos <nicos@gmx.co.uk>
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% Copyright (C): Nicos Angelopoulos, Universidade do Porto, VU University Amsterdam
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%
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% This file is part of real
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% distributed according to Perl Artistic License
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% check LICENSE file for distribution license
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%
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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:- module('real', [
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start_r/0,
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end_r/0,
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r/2,
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r/1,
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is_rvar/1,
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is_rvar/2,
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real_citation/2,
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real_debug/0,
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real_nodebug/0,
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real_version/3,
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r_char/2,
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r_wait/0,
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devoff/0,
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devoff_all/0,
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(<-)/1,
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(<-)/2,
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op(950,fx,<-),
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op(950,yfx,<-),
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op(600,xfy,~),
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op(600,fy,~),
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op(600,yfx,'..'),
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% op(400,yfx,'%x%'), % function exists
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% op(400,yfx,'%%'), % mod
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% op(400,yfx,'%/%'), % //
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op(300,yfx,@*@), % op(300,yfx,'%*%'), % matrix multiplication: inner product
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op(300,yfx,@^@), % op(300,yfx,'%o%'), % outer product ?
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% op(400,yfx,'%in%'), % function can be called instead
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op(400,yfx,$),
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op(400,yfx,@),
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op(150,yf,i), % complex number
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op(800,fx,@),
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op(400,xfy,=+ ),
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op(50, yf, []),
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op(50, yf, '()'),
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op(100, xfy, '.'),
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op(100, fy, '.')
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]).
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:- use_module(library(shlib)).
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:- use_module(library(lists)).
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:- use_module(library(apply_macros)).
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:- use_module(library(charsio)).
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:- use_module(library(readutil)).
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:- use_module(library(debug)).
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:- dynamic( real:r_started/1 ).
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:- create_prolog_flag( real, none, [type(atom)] ).
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:- set_prolog_flag(double_quotes, string ).
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/** <module> An interface to the R statistical software.
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@ingroup packages
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#### Introduction
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This library enables the communication with an R process started as a shared library.
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It is the result of the efforts of two research groups that have worked in parallel.
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The syntactic emphasis on a minimalistic interface.
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In the doc/ directory of the distribution there is user's guide, a published paper
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and html documentation from PlDoc (doc/html/real.html). There is large number
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of examples in `examples/for_real.pl`.
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A single predicate (<-/2,<-/1) channels
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the bulk of the interactions. In addition to using R as a shared library, real uses
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the c-interfaces of SWI/Yap and R to pass objects in both directions.
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The usual mode of operation is to load Prolog values on to R variables and then call
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R functions on these values. The return value of the called function can be either placed
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on R variable or passed back to Prolog. It has been tested extensively on current
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SWI and YAP on Linux machines but it should also compile and work on MS operating systems and Macs.
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The main modes for utilising the interface are
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~~~~
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<- +Rexpr
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<- +Rvar
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~~~~
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Print Rvar or evaluate expression Rexpr in R
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~~~~
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+Rvar <- +PLdata
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+Rexpr <- +PLdata
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-PLvar <- +Rvar
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-PLvar <- +Rexpr
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+Rexpr1 <- +Rexpr2
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~~~~
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Pass Prolog data to R, pass R data to Prolog or assign an R expression to
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an assignable R expression.
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#### Testing
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There is a raft of examples packed in a singl```e file that test the library.
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~~~~
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?- [pack(real/examples/for_real)].
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?- for_real.
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?- edit( pack(real/examples/for_real) ).
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~~~~
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#### Syntax
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There are syntactic conventions in R that make unparsable prolog code.
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Notably function and variable names are allowed to contain dots, square brackets are used
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to access parts of vectors and arrays and functions are allowed empty argument tuples.
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We have introduced relevant syntax which allows for easy transition between prolog and R.
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Prolog constructs are converted by the library as follows:
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* =|..|= within atoms -> =|.|= (ex. =| as..integer(c(1,2,3)) -> as.integer(c(1,2,3))|= )
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* =|^[]|= after atoms -> =|[]|= (ex. =|a^[2] -> a[2] |=)
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* =|(.)|= at the end of atoms that are known R functions -> =|()|= (ex. =|dev..off(.) -> dev.off()|= )
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* =|[]|= -> c() (which equal to R's NULL value)
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* ( f(x) :- (..)) -> f(x) (...)
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* Lists of lists are converted to matrices. All first level lists must have the same length.
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* Filenames must be given as Prolog strings.
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* R specific operators (eg. %*% should be quoted in Prolog.
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* + prepends strings, for (Prolog) atoms: +'String'
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* Expressions that pose difficulty in translation can always be passed as unquoted Prolog atoms or strings.
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]]* since 0:1:2 foo() is valid syntax: =|<- dev..off() |= works now (with no need for dev..off(.))
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* since 0:1:2 mat[1] is valid syntax: =|m[1] <- 4|= works now (with no need for m^[...])
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#### Data transfers
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R vectors are mapped to prolog lists and matrices are mapped to nested lists.
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The convention works the other way around too.
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There are two ways to pass prolog data to R. The more efficient one is by using
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~~~~
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Rvar <- PLdata
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~~~~
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Where Pldata is one of the basic data types (number,boolean) a list or a c/n term.
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This transfers via C data between R and Prolog. In what follows atomic PLval data
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are simply considered as singleton lists.
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Flat Pldata lists are translated to R vectors and lists of one level of nesting to R matrices
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(which are 2 dimensional arrays in R parlance). The type of values of the vector or matrice is
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taken to be the type of the first data element of the Pldata according to the following :
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* integer -> integer
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* float -> double
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* atom -> char
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* boolean -> logical
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Booleans are represented in prolog as true/false atoms.
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Currently arrays of aribtrary dimensions are not supported in the low-level interface.
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Note that in R a scalar is just a one element vector. When passing non-scalars the
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interface will assume the type of the object is that of the first scalar until it encounters
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something different.
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Real will currently re-start and repopulate partial integers for floats as illustrated
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below:
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~~~~
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r <- [1,2,3]. % pass 1,2,3 to an R vector r
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R <- r. % pass contents of R vector r to Prolog variable R
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R = [1, 2, 3].
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i <- [1,2,3.1]. % r is now a vector of floats, rather than integers
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I <- i.
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I = [1.0, 2.0, 3.1].
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~~~~
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However, not all possible "corrections" are currently supported. For instance,
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~~~~
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?- c <- [a,b,c,1].
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ERROR: real:set_R_variable/2: Type error: `boolean' expected, found `a'
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~~~~
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In the data passing mode we map Prolog atoms to R strings-
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~~~~
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?- x <- [abc,def].
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true.
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?- <- x.
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[1] "abc" "def"
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true.
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?- X <- x.
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X = [abc, def].
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~~~~
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In addition, Prolog data can be passed through the expression mechanism.
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That is, data appearing in an arbitrary R expression will be parsed and be part of the long
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string that will be passed from Prolog to R for evaluation.
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This is only advisable for short data structures. For instance,
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~~~~
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tut_4a :-
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state <- c(+"tas", +"sa", +"qld", +"nsw", +"nsw"),
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<- state.
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tut_4b :-
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state <- c(+tas, +sa, +qld, +nsw, +nsw),
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<- state.
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~~~~
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Through this interface it is more convenient to be explicit about R chars by Prolog prepending
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atoms or codes with + as in the above example.
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#### Examples
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~~~~
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?- e <- numeric(.).
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yes
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?- e^[3] <- 17.
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yes
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?- e[3] <- 17.
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yes
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?- Z <- e.
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Z = ['$NaN','$NaN',17.0]
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?- e^[10] <- 12.
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yes
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?- Z <- e.
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Z = ['$NaN','$NaN',17.0,'$NaN','$NaN','$NaN','$NaN','$NaN','$NaN',12.0]
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rtest :-
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y <- rnorm(50), % get 50 random samples from normal distribution
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<- y, % print the values via R
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x <- rnorm(y), % get an equal number of normal samples
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<- x11(width=5,height=3.5), % create a plotting window
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<- plot(x,y) % plot the two samples
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r_wait, % wait for user to hit Enter
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% <- dev..off(.). % old syntax, still supported
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<- dev.off(). % close the plotting window. foo() now acceptable in supported Prologs
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tut6 :-
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d <- outer(0:9, 0:9),
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fr <- table(outer(d, d, "-")),
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<- plot(as..numeric(names(fr)), fr, type="h", xlab="Determinant", ylab="Frequency").
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tut4b :-
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state <- [tas,sa,qld,nsw,nsw,nt,wa],
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statef <- factor(state),
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incmeans <- tapply( c(60, 49, 40, 61, 64, 60, 59), statef, mean ),
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<- incmeans.
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logical :-
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t <- [1,2,3,4,5,1],
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s <- t~~~~1,
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<- s,
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S <- s,
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write( s(S) ), nl.
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~~~~
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#### Info
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@author Nicos Angelopoulos
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@author Vitor Santos Costa
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@version 1:0:4, 2013/12/25, sinter_class
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@license Perl Artistic License
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@see http://stoics.org.uk/~nicos/sware/real
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@see pack(real/examples/for_real)
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@see pack(real/doc/real.html)
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@see pack(real/doc/guide.pdf)
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@see pack(real/doc/padl2013-real.pdf)
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@see http://www.r-project.org/
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*/
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%%%
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init_r_env :-
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getenv('R_HOME',Path),
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% done, except if in windows...
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\+ current_prolog_flag(windows, true),
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!,
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debug( real, 'Found R_HOME: ~a', [Path] ).
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:- if(current_predicate(win_registry_get_value/3)).
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init_r_env :-
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% windows is windows
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current_prolog_flag(windows, true),
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( HKEY='HKEY_LOCAL_MACHINE/Software/R-core/R';
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HKEY='HKEY_CURRENT_USER/Software/R-core/R' ),
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(
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catch(win_registry_get_value(HKEY,'Current Version', Version),_,fail)
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->
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true
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;
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catch(win_registry_get_subkey(HKEY, Version ), _, fail)
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),
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!,
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atomic_list_concat([HKEY,Version],'/',SecondKey),
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win_registry_get_value(SecondKey,'InstallPath', RPath), !,
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setenv('R_HOME',RPath), % this probably does not help (at least not XPs)
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% now we need to have the DLL in our path
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% nicos: although on xp it seems that path has to already be set.
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( current_prolog_flag(address_bits, 64) ->
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Psf = '\\bin\\x64'
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;
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Psf = '\\bin\\i386'
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),
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atomic_list_concat( [RPath,Psf], ToR ),
|
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install_in_ms_windows(ToR).
|
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:- endif.
|
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|
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|||
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init_r_env :-
|
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current_prolog_flag(unix, true),
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% typical Linux 64 bit setup (fedora)
|
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current_prolog_flag(address_bits, 64),
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Linux64 = '/usr/lib64/R',
|
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exists_directory(Linux64), !,
|
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debug( real, 'Setting R_HOME to: ~a', [Linux64] ),
|
|||
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setenv('R_HOME',Linux64).
|
|||
|
init_r_env :-
|
|||
|
current_prolog_flag(unix, true),
|
|||
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% typical Linux setup (Ubuntu)
|
|||
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Linux32 = '/usr/lib/R',
|
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exists_directory( Linux32 ), !,
|
|||
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debug( real, 'Setting R_HOME to: ~a', [Linux32] ),
|
|||
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setenv('R_HOME',Linux32).
|
|||
|
% nicos, fixme: Linux multilib ?
|
|||
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init_r_env :-
|
|||
|
% typical MacOs setup
|
|||
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exists_directory('/Library/Frameworks'), !,
|
|||
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install_in_osx.
|
|||
|
init_r_env :-
|
|||
|
absolute_file_name( path('R'), This,
|
|||
|
[ extensions(['',exe]),
|
|||
|
access(execute)
|
|||
|
] ),
|
|||
|
dirpath_to_r_home( This, Rhome ),
|
|||
|
exists_directory( Rhome ), !,
|
|||
|
debug( real, 'Setting R_HOME to bin relative: ~a', [Rhome] ),
|
|||
|
setenv('R_HOME',Rhome).
|
|||
|
|
|||
|
init_r_env :-
|
|||
|
throw( real_error(r_root) ).
|
|||
|
|
|||
|
% track down binarythrough symbolic links...
|
|||
|
dirpath_to_r_home( This0, Rhome ) :-
|
|||
|
read_link(This0, _, This), !,
|
|||
|
dirpath_to_r_home( This, Rhome ).
|
|||
|
dirpath_to_r_home( This, Rhome ) :-
|
|||
|
file_directory_name( This, R1 ),
|
|||
|
file_base_name(R1, Execdir) ->
|
|||
|
( Execdir == bin ->
|
|||
|
Rhome = R1
|
|||
|
;
|
|||
|
% windows with multiple binaries
|
|||
|
file_directory_name( R1, R2 ),
|
|||
|
file_base_name(R2, bin),
|
|||
|
file_directory_name( R2, Rhome )
|
|||
|
).
|
|||
|
|
|||
|
r_home_postfix( 'lib64/R' ) :-
|
|||
|
current_prolog_flag(address_bits, 64).
|
|||
|
r_home_postfix( 'lib/R' ).
|
|||
|
|
|||
|
to_nth( [To|T], To, T ) :- !.
|
|||
|
to_nth( [_H|T], To, Right ) :-
|
|||
|
to_nth( T, To, Right ).
|
|||
|
|
|||
|
% nicos: This should become the standard way. 2013/01/02.
|
|||
|
:- if(current_predicate(win_add_dll_directory/1)).
|
|||
|
install_in_ms_windows( ToR ) :-
|
|||
|
debug( real, 'Setting up ms-wins dll directory: ~a', [ToR] ),
|
|||
|
win_add_dll_directory( ToR ),
|
|||
|
install_in_ms_windows_path( ToR ).
|
|||
|
:- else.
|
|||
|
install_in_ms_windows(RPath) :-
|
|||
|
install_in_ms_windows_path( RPath ).
|
|||
|
:- endif.
|
|||
|
|
|||
|
install_in_ms_windows_path(RPath) :-
|
|||
|
getenv('PATH',OPath),
|
|||
|
atomic_list_concat([OPath,';',RPath],Path),
|
|||
|
% if you have problems with R associated dlls, you might also want to add:
|
|||
|
% atomic_list_concat([IPath,';',RPath,'\\modules\\i386'],Path),
|
|||
|
debug( real, 'Changing wins path to: ~a', [Path] ),
|
|||
|
setenv('PATH',Path).
|
|||
|
|
|||
|
install_in_osx :-
|
|||
|
current_prolog_flag(address_bits, 64),
|
|||
|
Mac64 = '/Library/Frameworks/lib64/R',
|
|||
|
exists_directory(Mac64), !,
|
|||
|
debug( real, 'Setting R_HOME to: ~a', [Mac64] ),
|
|||
|
setenv('R_HOME',Mac64).
|
|||
|
install_in_osx :-
|
|||
|
% typical MacOs setup
|
|||
|
MacTypical = '/Library/Frameworks/R.framework/Resources',
|
|||
|
exists_directory(MacTypical), !,
|
|||
|
debug( real, 'Setting R_HOME to: ~a', [MacTypical] ),
|
|||
|
setenv('R_HOME', MacTypical).
|
|||
|
install_in_osx :-
|
|||
|
LastMac = '/Library/Frameworks/lib/R',
|
|||
|
( exists_directory(LastMac) ->
|
|||
|
debug( real, 'Setting R_HOME to: ~a', [LastMac] )
|
|||
|
;
|
|||
|
debug( real, 'Setting R_HOME to non-existing: ~a', [LastMac] )
|
|||
|
),
|
|||
|
setenv('R_HOME', LastMac ).
|
|||
|
|
|||
|
% interface predicates
|
|||
|
|
|||
|
%% start_r.
|
|||
|
% Start an R object. This is done automatically upon loading the library.
|
|||
|
% Only 1 instance should be started per Prolog session.
|
|||
|
% Multiple sessions will be ignored silently.
|
|||
|
%
|
|||
|
start_r :-
|
|||
|
\+ r_started( true ),
|
|||
|
!,
|
|||
|
swipl_wins_warn,
|
|||
|
init_r_env,
|
|||
|
use_foreign_library(foreign(real)),
|
|||
|
init_R,
|
|||
|
set_prolog_flag(double_quotes, string ),
|
|||
|
set_prolog_flag( real, started ).
|
|||
|
start_r.
|
|||
|
|
|||
|
%% end_r.
|
|||
|
%
|
|||
|
% End the connection to the R process.
|
|||
|
end_r :-
|
|||
|
% so that module systems doesn't complain when
|
|||
|
% initialisation fails to find R.
|
|||
|
stop_R.
|
|||
|
|
|||
|
%% '<-'(+Rvar).
|
|||
|
%% '<-'(+Rexpr).
|
|||
|
%
|
|||
|
% If Rvar is an atom and a known R object, then print Rvar on R.
|
|||
|
% Else treat the input as an R expression and pass it on R for interpretation.
|
|||
|
% (Throws result away, if expression is not a <- expression itself).
|
|||
|
%
|
|||
|
'<-'(X) :- !,
|
|||
|
execute_R(X), !.
|
|||
|
'<-'(X) :-
|
|||
|
r(X).
|
|||
|
|
|||
|
%% '<-'(+Rvar, +PLdata ).
|
|||
|
%% '<-'(+Rexpr, +PLdata ).
|
|||
|
%% '<-'(-PLvar, +Rvar ).
|
|||
|
%% '<-'(-PLvar, +Rexpr ).
|
|||
|
%% '<-'(+Rexpr1, +Rexpr2 ).
|
|||
|
%
|
|||
|
% Pass Prolog data PLdata to Rvar. PLdata is a term that is one of:
|
|||
|
% an atomic value, flat list or list of depth 2. This mode uses the C-interface to pass
|
|||
|
% the value to an R variable.
|
|||
|
%
|
|||
|
% Pass PLdata to an assignable R expression.
|
|||
|
%
|
|||
|
% Pass Rvar to PLvar variable via the C-interface.
|
|||
|
%
|
|||
|
% Evaluate Rexpr and store its return value to PLvar.
|
|||
|
%
|
|||
|
% Pass Rexpr1 <- Rexpr2 to R.
|
|||
|
%
|
|||
|
% Note that all Rexpr* are first processed as described in the section about syntax before passed to R.
|
|||
|
% Real also looks into Rexpressions and passes embeded lists to hidden R variables in order
|
|||
|
% to pass large data efficiently.
|
|||
|
%
|
|||
|
% c/n terms are recognised as PLdata
|
|||
|
% if and only if they contain basic data items in all their arguments that can be
|
|||
|
% cast to a single data type. This builds on the c() function of R that is a basic
|
|||
|
% data constructor. Currently c/n terms are not recognised within nested expressions.
|
|||
|
% But a mechanism similar to the hidden variables for Prolog lists in expressions should
|
|||
|
% be easy to implement.
|
|||
|
%
|
|||
|
'<-'(X,Y) :- !,
|
|||
|
execute_R( X, Y ), !.
|
|||
|
'<-'(X,Y) :-
|
|||
|
r(X,Y ).
|
|||
|
|
|||
|
%% r( R )
|
|||
|
%
|
|||
|
% Nickname for <-(R).
|
|||
|
%
|
|||
|
r( RvarIn ) :-
|
|||
|
( rvar_identifier(RvarIn,_,RvarCs) ->
|
|||
|
true
|
|||
|
; (atom(RvarIn),atom_codes(RvarIn,RvarCs))
|
|||
|
),
|
|||
|
!,
|
|||
|
atom_codes('print( ', PrintOpen), % JW: I think we should be using atoms
|
|||
|
atom_codes(' )', PrintClose), % JW: all along
|
|||
|
append([PrintOpen,RvarCs,PrintClose], CmdCodes),
|
|||
|
send_r_codes( CmdCodes ).
|
|||
|
r( R ) :-
|
|||
|
rexpr_codes(R,TmpRs,Rcodes,[]),
|
|||
|
!,
|
|||
|
send_r_codes(Rcodes),
|
|||
|
maplist( r_remove, TmpRs ).
|
|||
|
r( _Other ) :-
|
|||
|
write( user_error, 'Cannot use input to <-/1.' ), nl, nl,
|
|||
|
fail.
|
|||
|
|
|||
|
%% r( ?L, +R ).
|
|||
|
%
|
|||
|
% Nickname for <-(L,R).
|
|||
|
%
|
|||
|
r( Plvar, RvarIn ) :-
|
|||
|
var(Plvar),
|
|||
|
rvar_identifier( RvarIn, RvarIn, _ ),
|
|||
|
!,
|
|||
|
debug( real, 'Assigning to Prolog variable R variable ~a', [RvarIn] ),
|
|||
|
robj_to_pl_term( RvarIn, Plvar ).
|
|||
|
% Plvar <- Rexpr.
|
|||
|
r( Plvar, Rexpr ) :-
|
|||
|
var(Plvar),
|
|||
|
rexpr_codes( Rexpr, TmpRs, Rcodes ),
|
|||
|
!,
|
|||
|
debug( real, 'Assigning to Prolog variable R expression ~s', [Rcodes] ),
|
|||
|
rexpr_to_pl_term( Rcodes, Plvar ),
|
|||
|
maplist( r_remove, TmpRs ).
|
|||
|
% Rvar <- Plval.
|
|||
|
r( RvarIn, PlrExpr ) :-
|
|||
|
assignment( PlrExpr, RvarIn ),
|
|||
|
!.
|
|||
|
% Rexpr1 <- Rexpr2
|
|||
|
r( LRexpr, RRexpr ) :-
|
|||
|
rexpr_codes('<-'(LRexpr,RRexpr),TmpRs,Rcodes),
|
|||
|
!,
|
|||
|
send_r_codes( Rcodes ),
|
|||
|
maplist( r_remove, TmpRs ).
|
|||
|
r( _Plvar, _Rexpr ) :-
|
|||
|
write( user_error, 'Cannot decipher modality of <-/2. \n ' ), nl,
|
|||
|
fail.
|
|||
|
|
|||
|
%% is_rvar(+Rvar).
|
|||
|
% True if Rvar is an atom and a known variable in the R environment.
|
|||
|
is_rvar( Rvar ) :-
|
|||
|
is_rvar( Rvar, _ ).
|
|||
|
%% is_rvar(+Rvar,-RvarAtom).
|
|||
|
% True if Rvar is a term and a known variable in the R environment.
|
|||
|
% RvarAtom is the atomic representation of the Rvar term.
|
|||
|
%
|
|||
|
is_rvar( RvarIn, Rvar ) :-
|
|||
|
atom(RvarIn), !,
|
|||
|
is_R_variable(RvarIn),
|
|||
|
RvarIn = Rvar.
|
|||
|
is_rvar( RvarIn, Rvar ) :-
|
|||
|
rvar_identifier( RvarIn, Rvar, _RvarAtom ),
|
|||
|
is_R_variable( Rvar ),
|
|||
|
rexpr_codes( mode(Rvar), [], Rmode ),
|
|||
|
rexpr_to_pl_term( Rmode, Plmode ),
|
|||
|
RvarModes = [character,complex,list,logical,'NULL',numeric,raw,'S4'],
|
|||
|
memberchk( Plmode, RvarModes ).
|
|||
|
|
|||
|
%% r_char( +Atomic, +RcharAtom ).
|
|||
|
%
|
|||
|
% Wrap an atomic value with double quotes so it can pass as an R char type.
|
|||
|
% This is more or less obsolete. You can use +Atomic directly in R expressions.
|
|||
|
%
|
|||
|
r_char( Atomic, Rchar ) :-
|
|||
|
atomic( Atomic ),
|
|||
|
!,
|
|||
|
atomic_list_concat( ['"',Atomic,'"'], Rchar ).
|
|||
|
|
|||
|
%% devoff.
|
|||
|
% Close the current plot devise without any reporting. Short for <- invisible('dev.off'()').
|
|||
|
devoff :-
|
|||
|
<- invisible(-'dev.off()').
|
|||
|
|
|||
|
%% devoff_all.
|
|||
|
%
|
|||
|
% Close all open devices.
|
|||
|
%
|
|||
|
/*
|
|||
|
devoff_all :-
|
|||
|
Dev <- dev..cur(.),
|
|||
|
Dev > 1,
|
|||
|
!,
|
|||
|
devoff,
|
|||
|
devoff_all.
|
|||
|
*/
|
|||
|
devoff_all.
|
|||
|
|
|||
|
%% r_wait
|
|||
|
% Currently only waiting for Return to be pressed.
|
|||
|
%
|
|||
|
r_wait :-
|
|||
|
write('Press Return to continue...'), nl,
|
|||
|
read_line_to_codes(user_input, _).
|
|||
|
|
|||
|
%% real_debug.
|
|||
|
%
|
|||
|
% A common (SWI/Yap) interface for starting debugging messages for real.
|
|||
|
%
|
|||
|
real_debug :-
|
|||
|
debug(real).
|
|||
|
|
|||
|
%% real_nodebug.
|
|||
|
%
|
|||
|
% A common (SWI/Yap) interface for stopping debugging messages for real.
|
|||
|
%
|
|||
|
real_nodebug :-
|
|||
|
nodebug(real).
|
|||
|
|
|||
|
%% real_version( Version, Date, Note ).
|
|||
|
%
|
|||
|
% Version and release Date (data(Y,M,D) term). Note is either a
|
|||
|
% note or nickname for the release. In git development sources this is set to `development´.
|
|||
|
%
|
|||
|
real_version( 1:0:4, date(2013,12,25), sinter_class ).
|
|||
|
% 1:0:0, 2013/12/6, sinter_class
|
|||
|
% 0:1:2, 2013/11/3, the_stoic
|
|||
|
% 0:1:0, 2012/12/26, oliebollen
|
|||
|
|
|||
|
%% real_citation( -Atom, -Bibterm ).
|
|||
|
% Succeeds once for each publication related to this library. Atom is the atom representation
|
|||
|
% suitable for printing while Bibterm is a bibtex(Type,Key,Pairs) term of the same publication.
|
|||
|
% Produces all related publications on backtracking.
|
|||
|
real_citation( Atom, bibtex(Type,Key,Pairs) ) :-
|
|||
|
Atom = 'Integrative functional statistics in logic programming \nNicos Angelopoulos, Vítor Santos Costa, Joao Azevedo, Jan Wielemaker, Rui Camacho and Lodewyk Wessels \nProc. of Practical Aspects of Declarative Languages (PADL 2013). Accepted (January, 2013. Rome, Italy).',
|
|||
|
Type = inproceedings,
|
|||
|
Key = 'AngelopoulosN+2012',
|
|||
|
Pairs = [
|
|||
|
author = 'Nicos Angelopoulos and Vitor Santos Costa and Joao Azevedo and Jan Wielemaker and Rui Camacho and Lodewyk Wessels',
|
|||
|
title = 'Integrative functional statistics in logic programming',
|
|||
|
booktitle = 'Proc. of Practical Aspects of Declarative Languages}',
|
|||
|
year = 2013,
|
|||
|
month = 'January',
|
|||
|
address = 'Rome, Italy',
|
|||
|
url = 'http://stoics.org.uk/~nicos/pbs/padl2013-real.pdf'
|
|||
|
].
|
|||
|
|
|||
|
%%% end of interface predicates
|
|||
|
|
|||
|
% maybe add this to the interface ?
|
|||
|
r_remove( Plvar ) :-
|
|||
|
<- remove( Plvar ).
|
|||
|
|
|||
|
send_r_codes( Rcodes ) :-
|
|||
|
debug( real, 'Sending to R: ~s', [Rcodes] ),
|
|||
|
send_R_command( Rcodes ).
|
|||
|
|
|||
|
rexpr_codes( Rterm, RTmps, Rcodes ) :-
|
|||
|
rexpr_codes( Rterm, RTmps, Rcodes, [] ).
|
|||
|
|
|||
|
assignment(PlDataIn, Rvar) :-
|
|||
|
false, % atom( Rvar ),
|
|||
|
rvar_identifier( Rvar, Rvar, _ ),
|
|||
|
functor( PlDataIn, c, _Arity ),
|
|||
|
send_c_vector(PlDataIn, Rvar), !,
|
|||
|
debug( real, 'Assigned c vector to R variable ~a.', [Rvar] ).
|
|||
|
|
|||
|
assignment(PlDataIn, Rvar) :-
|
|||
|
% atom( Rvar ),
|
|||
|
% we would like to use rvar_identifier here, instead of atom/1
|
|||
|
% but a$b <- 3 does not work with set_R_variable/2.
|
|||
|
rvar_identifier( Rvar, Rvar, _ ),
|
|||
|
pl_data( PlDataIn, PlData ),
|
|||
|
!,
|
|||
|
% term_to_atom( RvarIn, RvarAtom ),
|
|||
|
set_R_variable(Rvar, PlData),
|
|||
|
debug( real, 'Assigned Prolog data to R variable ~a.', [Rvar] ).
|
|||
|
|
|||
|
assignment( Rexpr, Rvar ) :-
|
|||
|
rvar_identifier( Rvar, _Rvar, RAssgn ),
|
|||
|
rexpr_codes( '<-'(-RAssgn,Rexpr), TmpRs, Rcodes ),
|
|||
|
!,
|
|||
|
send_r_codes( Rcodes ),
|
|||
|
maplist( r_remove, TmpRs ).
|
|||
|
|
|||
|
pl_data( PlData, PlData ) :-
|
|||
|
( number(PlData); PlData=[_|_]; boolean_atom(PlData); PlData = @(_) ).
|
|||
|
/*
|
|||
|
pl_data( PlDataIn, PlData ) :-
|
|||
|
PlDataIn =.. [c|PlData].
|
|||
|
*/
|
|||
|
|
|||
|
/** rvar_identifier( Rterm, Rvar, Rcodes ).
|
|||
|
|
|||
|
True if Rterm is an access term for an R variable Rvar and Rcodes
|
|||
|
are the codes corresponding to Rterm. Note that it is not the
|
|||
|
case that term_to_codes( Rterm, Rcodes ) holds. Rterm might contain code lists
|
|||
|
that are contextually interpreted by R as slots or list item labels.
|
|||
|
Or, Rterm might contain indices that we translate.
|
|||
|
|
|||
|
*/
|
|||
|
|
|||
|
rvar_identifier( Rt, Rv, Rc ) :-
|
|||
|
rvar_identifier_1( Rt, Rv, Ra ),
|
|||
|
!,
|
|||
|
% is_R_variable( Rv ),
|
|||
|
atom_codes( Ra, Rc ).
|
|||
|
|
|||
|
rvar_identifier_1( Rvar, Rvar, Rvar ) :-
|
|||
|
atom( Rvar ),
|
|||
|
( catch(term_to_atom(Atom,Rvar),_,fail) ),
|
|||
|
Atom == Rvar.
|
|||
|
rvar_identifier_1( A..B, Atom, Atom ) :-
|
|||
|
atom(B),
|
|||
|
rvar_identifier_1( A, Aatom, _ ),
|
|||
|
atomic_list_concat( [Aatom,'.',B], Atom ).
|
|||
|
rvar_identifier_1( A$B, Rv, C ) :-
|
|||
|
rname_atom( B, Batom ),
|
|||
|
rvar_identifier_1( A, Rv, Aatom ),
|
|||
|
% term_to_atom( Aatom$Batom, C ).
|
|||
|
atomic_list_concat( [Aatom,'$',Batom], C ).
|
|||
|
rvar_identifier_1( A@B, Rv, C ) :-
|
|||
|
rname_atom( B, Batom ),
|
|||
|
rvar_identifier_1( A, Rv, Aatom ),
|
|||
|
atomic_list_concat( [Aatom,'@',Batom], C ).
|
|||
|
rvar_identifier_1( []([[B]],A), Rv, C ) :-
|
|||
|
rvar_identifier_1( A, Rv, Aatom ),
|
|||
|
rexpr_codes(B, [], BCs, [] ),
|
|||
|
atom_codes( Batom, BCs ),
|
|||
|
atomic_list_concat( [Aatom,'[[',Batom,']]'], C ).
|
|||
|
rvar_identifier_1( A^[[B]], Rv, C ) :-
|
|||
|
rvar_identifier_1( A, Rv, Aatom ),
|
|||
|
rexpr_codes(B, [], BCs, [] ),
|
|||
|
atom_codes( Batom, BCs ),
|
|||
|
atomic_list_concat( [Aatom,'[[',Batom,']]'], C ).
|
|||
|
rvar_identifier_1( [](B,A), A, C ) :-
|
|||
|
indices_to_string( B, BCs, [] ),
|
|||
|
atom_codes( Batom, BCs ),
|
|||
|
atom_concat( A, Batom, C ).
|
|||
|
rvar_identifier_1( A^B, A, C ) :-
|
|||
|
atom( A ),
|
|||
|
is_list( B ),
|
|||
|
indices_to_string( B, BCs, [] ),
|
|||
|
atom_codes( Batom, BCs ),
|
|||
|
atom_concat( A, Batom, C ).
|
|||
|
|
|||
|
/** rexpr_codes(V,_,_).
|
|||
|
|
|||
|
Generate (or parse) an R expression as codes from/to a Prolog term.
|
|||
|
*/
|
|||
|
rexpr_codes(V,[]) -->
|
|||
|
{ var(V) }, !,
|
|||
|
{ throw(error(instantiation_error,r_interface)) }.
|
|||
|
rexpr_codes(T,[]) -->
|
|||
|
{ current_predicate(string/1), string(T),
|
|||
|
!,
|
|||
|
format( codes(S), "~s", [T])
|
|||
|
},
|
|||
|
"\"", S, "\"".
|
|||
|
rexpr_codes(+A,[]) -->
|
|||
|
!,
|
|||
|
{ atom(A) -> format(codes(S), "~s", [A]) },
|
|||
|
"\"", S, "\"".
|
|||
|
rexpr_codes(-A,[]) -->
|
|||
|
!,
|
|||
|
{ atom(A) -> format(codes(S), '~a', [A]) ; format(codes(S), "~s", [A]) },
|
|||
|
S.
|
|||
|
rexpr_codes(=+(A,B),List) -->
|
|||
|
!,
|
|||
|
rexpr_codes((A = +B),List).
|
|||
|
rexpr_codes(Array,TmpRs) -->
|
|||
|
{ Array = [_|_] },
|
|||
|
array_to_c(Array,TmpV), !,
|
|||
|
{ TmpRs = [TmpV] }.
|
|||
|
rexpr_codes(A,[]) -->
|
|||
|
{ compound(A,'()',[Fname]) },
|
|||
|
!,
|
|||
|
add_atom(-Fname), "()".
|
|||
|
rexpr_codes(A,[]) --> % fixme: remove when .
|
|||
|
{ compound(A,Name,[_]), arg(1,A,'.') }, !,
|
|||
|
add_atom(-Name), "()".
|
|||
|
/* This can be used if we want c() to be passed by lists,
|
|||
|
but it currently does not accommodate c(1:3,1:3)
|
|||
|
rexpr_codes(A,List) -->
|
|||
|
{
|
|||
|
A =.. [c|B], B \== []
|
|||
|
},
|
|||
|
!,
|
|||
|
rexpr_codes(B,List).
|
|||
|
*/
|
|||
|
/* atom is already protected */
|
|||
|
/*
|
|||
|
rexpr_codes(A,[]) -->
|
|||
|
{ atom(A), is_rvar(A, _) }, !,
|
|||
|
add_atom(-A).
|
|||
|
*/
|
|||
|
rexpr_codes(A,[]) -->
|
|||
|
/* string */
|
|||
|
{ atom(A) }, !,
|
|||
|
add_atom(-A).
|
|||
|
rexpr_codes(A,[]) -->
|
|||
|
{ number(A) }, !,
|
|||
|
add_number(A).
|
|||
|
rexpr_codes(AKey, TmpRs) -->
|
|||
|
{ compound(AKey,[], [[[Key]], A]) },
|
|||
|
!,
|
|||
|
% rexpr_unquoted(A, [] ),
|
|||
|
rexpr_codes(A, Atmp ),
|
|||
|
"[[", rexpr_codes(Key, Ktmp), "]]",
|
|||
|
{ append(Atmp,Ktmp,TmpRs) }.
|
|||
|
rexpr_codes(A^[[Key]], TmpRs) -->
|
|||
|
!,
|
|||
|
% rexpr_unquoted(A, [] ),
|
|||
|
rexpr_codes(A, Atmp ),
|
|||
|
"[[", rexpr_codes(Key, Ktmp), "]]",
|
|||
|
{ append(Atmp,Ktmp,TmpRs) }.
|
|||
|
rexpr_codes(AList, TmpRs) -->
|
|||
|
{ compound(AList, [], [List,A]) },
|
|||
|
!,
|
|||
|
rexpr_codes(A, TmpRs),
|
|||
|
indices_to_string( List ).
|
|||
|
rexpr_codes(A^List, TmpRs) -->
|
|||
|
{ is_list(List) }, !,
|
|||
|
rexpr_codes(A, TmpRs),
|
|||
|
% rexpr_unquoted(A, TmpRs),
|
|||
|
indices_to_string( List ).
|
|||
|
rexpr_codes(A$B,TmpA) -->
|
|||
|
!,
|
|||
|
rexpr_codes( A, TmpA ),
|
|||
|
% rexpr_unquoted( A, TmpA ),
|
|||
|
"$",
|
|||
|
add_name( B ).
|
|||
|
rexpr_codes(A@B,TmpA) -->
|
|||
|
!,
|
|||
|
rexpr_codes( A, TmpA ),
|
|||
|
% rexpr_unquoted( A, TmpA ),
|
|||
|
"@",
|
|||
|
add_name( B ).
|
|||
|
rexpr_codes(A1..A2,TmpRs) --> !,
|
|||
|
% rexpr_unquoted(A1, TmpRs1),
|
|||
|
rexpr_codes(A1, TmpRs1),
|
|||
|
".",
|
|||
|
% rexpr_unquoted(A2, TmpRs2),
|
|||
|
rexpr_codes(A2, TmpRs2),
|
|||
|
{ append(TmpRs1, TmpRs2, TmpRs) }.
|
|||
|
% R function definition
|
|||
|
rexpr_codes((A1 :- A2), TmpRs) -->
|
|||
|
!,
|
|||
|
rexpr_codes(A1,TmpA1),
|
|||
|
" ",
|
|||
|
rexpr_codes(A2,TmpA2),
|
|||
|
{append(TmpA1,TmpA2,TmpRs)}.
|
|||
|
|
|||
|
rexpr_codes(S,TmpRs) -->
|
|||
|
{
|
|||
|
arity(S, NaIn, 2),
|
|||
|
binary(NaIn,Na), atom_codes(Na,NaS),
|
|||
|
arg(1,S,A1), arg(2,S,A2)
|
|||
|
}, !,
|
|||
|
% fixme: we need something better in the following line (nicos)
|
|||
|
left(Na),
|
|||
|
rexpr_codes(A1,TmpA1),
|
|||
|
" ", NaS, " ",
|
|||
|
rexpr_codes(A2,TmpA2),
|
|||
|
right(Na),
|
|||
|
{append(TmpA1,TmpA2,TmpRs)}.
|
|||
|
rexpr_codes(S,TmpRs) -->
|
|||
|
{ compound( S, F, Args ) },
|
|||
|
% { S =.. [F|Args], F \== '.' },
|
|||
|
add_atom( -F ),
|
|||
|
"(",
|
|||
|
rexprs_codes(Args, true, F, TmpRs),
|
|||
|
")".
|
|||
|
|
|||
|
left(Na) --> ({no_brace(Na)} -> "" ; "(").
|
|||
|
right(Na) --> ({no_brace(Na)} -> "" ; ")").
|
|||
|
|
|||
|
no_brace(<-).
|
|||
|
no_brace(=).
|
|||
|
no_brace(+).
|
|||
|
|
|||
|
rexprs_codes([], _, _, []) --> [].
|
|||
|
rexprs_codes([Arg|Args], Fin, Func, TmpRs) -->
|
|||
|
( { Fin == true } -> "" ; " ," ),
|
|||
|
rexpr_codes(Arg, TmpA),
|
|||
|
% { N1 is N+1 },
|
|||
|
rexprs_codes(Args, false, Func, TmpAs),
|
|||
|
{append(TmpA, TmpAs, TmpRs)}.
|
|||
|
|
|||
|
/* trying to remove this...
|
|||
|
rexpr_unquoted(A, TmpRs) -->
|
|||
|
( { atom(A) } ->
|
|||
|
add_atom(-A), { TmpRs = [] }
|
|||
|
;
|
|||
|
rexpr_codes(A , TmpRs)
|
|||
|
).
|
|||
|
*/
|
|||
|
|
|||
|
/* obsolete ?
|
|||
|
literal(1, library).
|
|||
|
literal(1, require).
|
|||
|
*/
|
|||
|
|
|||
|
indices_to_string( List ) -->
|
|||
|
"[",
|
|||
|
index_to_string( List ),
|
|||
|
"]".
|
|||
|
|
|||
|
index_to_string( [] ) --> [].
|
|||
|
index_to_string( [H|T] ) -->
|
|||
|
index_element_to_string( H ),
|
|||
|
index_comma( T ),
|
|||
|
index_to_string( T ).
|
|||
|
|
|||
|
index_element_to_string( * ) -->
|
|||
|
[].
|
|||
|
index_element_to_string( List ) -->
|
|||
|
{ is_list(List) },
|
|||
|
!,
|
|||
|
"c(", index_to_string( List ), ")".
|
|||
|
index_element_to_string( +Atom ) -->
|
|||
|
{ atom(Atom), !, atom_codes(Atom, Codes) },
|
|||
|
"'", Codes, "'".
|
|||
|
index_element_to_string( -El ) -->
|
|||
|
"-",
|
|||
|
index_element_to_string(El).
|
|||
|
index_element_to_string( ElR:ElL ) -->
|
|||
|
index_element_to_string(ElR),
|
|||
|
":",
|
|||
|
index_element_to_string(ElL).
|
|||
|
index_element_to_string( +String ) --> % fixme: remove at .
|
|||
|
{ is_list(String) }, !,
|
|||
|
"\"", String, "\"".
|
|||
|
index_element_to_string( +String ) -->
|
|||
|
{ string(String) }, !,
|
|||
|
"\"", String, "\"".
|
|||
|
index_element_to_string( CExp ) -->
|
|||
|
{ CExp =.. [c|Cs] }, !,
|
|||
|
"c(", index_to_string(Cs), ")".
|
|||
|
index_element_to_string( Oth ) -->
|
|||
|
{ (integer(Oth);atom(Oth);compound(Oth)), !, write_to_chars(Oth,Codes) },
|
|||
|
Codes.
|
|||
|
index_element_to_string( CExp ) -->
|
|||
|
{ throw(cannot_process_index(CExp)) }.
|
|||
|
|
|||
|
index_comma( [] ) --> !, [].
|
|||
|
index_comma( _ ) -->
|
|||
|
!,
|
|||
|
",".
|
|||
|
|
|||
|
/* obsolete ?
|
|||
|
%% codes_string(Codes,Quoted).
|
|||
|
% check a list is full of (utf ?) codes
|
|||
|
% while replacing any " with \" to produce Quoted from Ascii
|
|||
|
%
|
|||
|
codes_string([],[]).
|
|||
|
codes_string(.(C,Cs),Q) :-
|
|||
|
integer(C),
|
|||
|
% <=nicos. char_type(C,ascii),
|
|||
|
% <=nicos. \+ char_type(C,cntrl),
|
|||
|
char_my_utf8(C),
|
|||
|
sew_code( C, Q, T ),
|
|||
|
codes_string(Cs,T).
|
|||
|
|
|||
|
char_my_utf8( C ) :-
|
|||
|
char_type(C,graph),
|
|||
|
!.
|
|||
|
char_my_utf8( C ) :-
|
|||
|
char_type(C,white).
|
|||
|
|
|||
|
%% ascii_code_sew( C, Q, T ).
|
|||
|
% Sew C or its quoted form on list Q with its tail returned in T.
|
|||
|
%
|
|||
|
sew_code( 34, [0'\\,0'"|T], T ) :- !.
|
|||
|
sew_code( C, [C|T], T ).
|
|||
|
*/
|
|||
|
|
|||
|
%% add_name( Name ).
|
|||
|
%
|
|||
|
% first cut in supporting places where R is expecting "names or string constants"
|
|||
|
% as in the RHS of $ and @
|
|||
|
%
|
|||
|
add_name( Name ) -->
|
|||
|
{ ( atomic(Name) -> Fo = '~a'; Fo = '~s' ),
|
|||
|
format(codes(Out), Fo, [Name])
|
|||
|
},
|
|||
|
Out.
|
|||
|
|
|||
|
%% rname_atom( Rname, Atom ).
|
|||
|
%
|
|||
|
% Holds for atomic Atom a map of Rname.
|
|||
|
% If Rname is a list is assumed to be a list of codes that is
|
|||
|
% atom_code(/2)d to Atom.
|
|||
|
%
|
|||
|
rname_atom( Rname, Atom ) :-
|
|||
|
( atomic(Rname) ->
|
|||
|
Atom = Rname
|
|||
|
;
|
|||
|
atom_codes( Rname, Atom )
|
|||
|
).
|
|||
|
|
|||
|
%
|
|||
|
% a nil atom in Prolog is likely to be the empty string in R.
|
|||
|
%
|
|||
|
add_atom([]) --> !,
|
|||
|
"\"\"".
|
|||
|
add_atom( -A ) -->
|
|||
|
!,
|
|||
|
{ format(codes(Out), '~w', [A]) },
|
|||
|
Out.
|
|||
|
add_atom( -A ) -->
|
|||
|
!,
|
|||
|
{ format(codes(Out), '~a', [A]) },
|
|||
|
Out.
|
|||
|
add_atom([C|Codes] ) -->
|
|||
|
!,
|
|||
|
{ format(codes(Out), '"~s"', [C|Codes]) },
|
|||
|
Out.
|
|||
|
% handle atoms that are explicitly quoted (r_char)
|
|||
|
add_atom(A) -->
|
|||
|
{ atom_codes(A, Codes) },
|
|||
|
check_quoted(A, Codes).
|
|||
|
|
|||
|
check_quoted(true, _) --> !, "TRUE".
|
|||
|
check_quoted(false, _) --> !, "FALSE".
|
|||
|
check_quoted(A, _) --> { is_R_variable(A) }, !,
|
|||
|
{ format(codes(Codes), '~a', [A]) },
|
|||
|
Codes.
|
|||
|
check_quoted(A, _) -->
|
|||
|
{ format(codes(Codes), '"~a"', [A]) },
|
|||
|
Codes.
|
|||
|
|
|||
|
|
|||
|
/* no longer used ?
|
|||
|
add_string_as_atom( [] ) --> [] .
|
|||
|
add_string_as_atom( [H|Tail] ) -->
|
|||
|
( { H =:= "\"" } ->
|
|||
|
( { Tail == [] } -> "\"" ; "\\\"" )
|
|||
|
;
|
|||
|
[H]
|
|||
|
),
|
|||
|
add_string_as_atom( Tail ).
|
|||
|
*/
|
|||
|
|
|||
|
|
|||
|
add_number(El) -->
|
|||
|
{ number_codes(El, Codes) },
|
|||
|
Codes.
|
|||
|
|
|||
|
array_to_c(Array,Rv) -->
|
|||
|
{
|
|||
|
fresh_r_variable(Rv),
|
|||
|
set_R_variable(Rv,Array),
|
|||
|
atom_codes(Rv,RvCodes)
|
|||
|
},
|
|||
|
RvCodes.
|
|||
|
|
|||
|
fresh_r_variable(Plv) :-
|
|||
|
between( 1, 10000, I ),
|
|||
|
atomic_list_concat([pl,v,I], '_', Plv),
|
|||
|
\+ is_rvar(Plv),
|
|||
|
!.
|
|||
|
|
|||
|
% hmmmm
|
|||
|
% originally this (binary/1) included a call to exist,
|
|||
|
% this rightly fails on lm(speeds~exprs)
|
|||
|
% we are converting this to an operators version and we might
|
|||
|
% need to introduce a top-level version that checks for functions
|
|||
|
binary( Plname, Rname ) :-
|
|||
|
current_op( _, Assoc, real:Plname ),
|
|||
|
binary_real_r( Plname, Rname ),
|
|||
|
once( binary_op_associativity( Assoc ) ).
|
|||
|
% atomic_list_concat( [exists,'("',Rname,'",mode="function")'], Atom ),
|
|||
|
% atom_codes( Atom, Rcodes ),
|
|||
|
% rexpr_to_pl_term( Rcodes, Rbool ),
|
|||
|
% Rbool == true.
|
|||
|
|
|||
|
binary_real_r( Plname, Rname ) :-
|
|||
|
binary_real_op( Plname, Rname ),
|
|||
|
!.
|
|||
|
binary_real_r( OpName, OpName ).
|
|||
|
|
|||
|
%% binary_real_op( +Plname, -Rname ).
|
|||
|
%
|
|||
|
% Rname is R's operator name for Plname. We only to define cases where Plname \== Rname.
|
|||
|
%
|
|||
|
binary_real_op( @*@, '%*%' ).
|
|||
|
binary_real_op( @^@, '%o%' ).
|
|||
|
binary_real_op( //, '%/%' ).
|
|||
|
binary_real_op( mod, '%%' ).
|
|||
|
|
|||
|
binary_op_associativity( yfx ).
|
|||
|
binary_op_associativity( xfy ).
|
|||
|
binary_op_associativity( xfx ).
|
|||
|
|
|||
|
boolean_atom( true ).
|
|||
|
boolean_atom( false ).
|
|||
|
|
|||
|
% Only on SWI, bug Vitor for at_halt/1.
|
|||
|
halt_r :-
|
|||
|
r_started(_),
|
|||
|
devoff_all,
|
|||
|
end_r,
|
|||
|
!.
|
|||
|
halt_r.
|
|||
|
|
|||
|
% makes some sense of SWI v7's half-house extensions on compounds:
|
|||
|
%
|
|||
|
compound( Term, Name, Args ) :-
|
|||
|
false,
|
|||
|
current_predicate( compound_name_arguments/3 ),
|
|||
|
!,
|
|||
|
compound( Term ),
|
|||
|
compound_name_arguments( Term, Name, Args ).
|
|||
|
compound( Term, Name, Args ) :-
|
|||
|
Term =.. [Name|Args].
|
|||
|
|
|||
|
arity( Term, Name, Arity ) :- false,
|
|||
|
current_predicate( compound_name_arity/3 ),
|
|||
|
!,
|
|||
|
compound( Term ),
|
|||
|
compound_name_arity( Term, Name, Arity ).
|
|||
|
arity( Term, Name, Arity ) :-
|
|||
|
functor( Term, Name, Arity ).
|
|||
|
|
|||
|
swipl_wins_warn :-
|
|||
|
current_prolog_flag(hwnd,_), % true iff ran via swipl-win.exe
|
|||
|
!,
|
|||
|
L = " library(real) notice: ",
|
|||
|
A = " There is a known issue with swipl-win.exe.",
|
|||
|
B = " R's I/O streams cannot be connected to those of Prolog.",
|
|||
|
C = " So for instance, <- print(x) does not print x to the terminal.",
|
|||
|
D = " All other functionalities are fine.",
|
|||
|
E = " To circumvent use things like X <- x, write( x ).",
|
|||
|
F = " If you need printing on console from R, you can start SWI via swipl.exe",
|
|||
|
Lines = [nl,nl,L,nl,nl,A,nl,B,nl,C,nl,D,nl,E,nl,F,nl,nl],
|
|||
|
print_message_lines(current_output, '', Lines ).
|
|||
|
swipl_wins_warn.
|
|||
|
|
|||
|
% error handling
|
|||
|
:- multifile prolog:message//1.
|
|||
|
|
|||
|
prolog:message(unhandled_exception(real_error(Message))) -->
|
|||
|
message(Message).
|
|||
|
|
|||
|
prolog:message(real_error(Message)) -->
|
|||
|
message(Message).
|
|||
|
|
|||
|
prolog:message(real_error(Message, Term, Line, File)) -->
|
|||
|
[ ' Error within R Interface (~s, line %d): ~n ~s for ~w~n' -
|
|||
|
[Message, Term, Line, File] ].
|
|||
|
|
|||
|
prolog:message( correspondence ) -->
|
|||
|
['R was unable to digest your statement, either syntax or existance error.' - [] ].
|
|||
|
prolog:message( r_root ) -->
|
|||
|
['Real was unable to find the R root directory. \n If you have installed R from sources set $R_HOME to point to $PREFIX/lib/R.\n You should also make sure libR.so is in a directory appearing in $LD_LIBRARY_PATH' - [] ].
|
|||
|
|
|||
|
:- at_halt(halt_r).
|
|||
|
|
|||
|
:- initialization(start_r, now).
|
|||
|
|
|||
|
:- initialization( set_prolog_flag( double_quotes, string) ).
|