/*
* $Id: p_header,v 1.4 2000/11/27 01:57:01 keiko Exp $
*/
#include <stdio.h>
#include "ruby.h"
#include "libtinyf2c.h"
#include "narray.h"
#define DFLT_SIZE 32
extern char *dcl_obj2ccharary(VALUE, int, int);
extern integer *dcl_obj2cintegerary(VALUE);
extern real *dcl_obj2crealary(VALUE);
extern complex *dcl_obj2ccomplexary(VALUE);
extern logical *dcl_obj2clogicalary(VALUE);
extern VALUE dcl_ccharary2obj(char *, int, int);
extern VALUE dcl_cintegerary2obj(integer *, int, int, int *);
extern VALUE dcl_crealary2obj(real *, int, int, int *);
extern VALUE dcl_ccomplexary2obj(complex *, int, char *);
extern VALUE dcl_clogicalary2obj(logical *, int, int, int *);
extern void dcl_freeccharary(char *);
extern void dcl_freecintegerary(integer *);
extern void dcl_freecrealary(real *);
extern void dcl_freeccomplexary(complex *);
extern void dcl_freeclogicalary(logical *);
/* for functions which return doublereal */
/* fnclib */
extern doublereal rd2r_(real *);
extern doublereal rr2d_(real *);
extern doublereal rexp_(real *, integer *, integer *);
extern doublereal rfpi_(void);
extern doublereal rmod_(real *, real *);
/* gnmlib */
extern doublereal rgnlt_(real *);
extern doublereal rgnle_(real *);
extern doublereal rgngt_(real *);
extern doublereal rgnge_(real *);
/* rfalib */
extern doublereal rmax_(real *, integer *, integer *);
extern doublereal rmin_(real *, integer *, integer *);
extern doublereal rsum_(real *, integer *, integer *);
extern doublereal rave_(real *, integer *, integer *);
extern doublereal rvar_(real *, integer *, integer *);
extern doublereal rstd_(real *, integer *, integer *);
extern doublereal rrms_(real *, integer *, integer *);
extern doublereal ramp_(real *, integer *, integer *);
/* rfblib */
extern doublereal rprd_(real *, real *, integer *, integer *, integer *);
extern doublereal rcov_(real *, real *, integer *, integer *, integer *);
extern doublereal rcor_(real *, real *, integer *, integer *, integer *);
extern VALUE mDCL;
static VALUE
dcl_vrrnm(obj, rx, n, jx, jy, nb)
VALUE obj, rx, n, jx, jy, nb;
{
real *i_rx;
real *o_ry;
integer i_n;
integer i_jx;
integer i_jy;
integer i_nb;
VALUE ry;
if (TYPE(rx) == T_FLOAT) {
rx = rb_Array(rx);
}
/* if ((TYPE(rx) != T_ARRAY) &&
(rb_obj_is_kind_of(rx, cNArray) != Qtrue)) {
rb_raise(rb_eTypeError, "invalid type");
} -- no check since obj2c*ary will do that */
if ((TYPE(n) != T_BIGNUM) || (TYPE(n) != T_FIXNUM)) {
n = rb_funcall(n, rb_intern("to_i"), 0);
}
if ((TYPE(jx) != T_BIGNUM) || (TYPE(jx) != T_FIXNUM)) {
jx = rb_funcall(jx, rb_intern("to_i"), 0);
}
if ((TYPE(jy) != T_BIGNUM) || (TYPE(jy) != T_FIXNUM)) {
jy = rb_funcall(jy, rb_intern("to_i"), 0);
}
if ((TYPE(nb) != T_BIGNUM) || (TYPE(nb) != T_FIXNUM)) {
nb = rb_funcall(nb, rb_intern("to_i"), 0);
}
i_n = NUM2INT(n);
i_jx = NUM2INT(jx);
i_jy = NUM2INT(jy);
i_nb = NUM2INT(nb);
i_rx = dcl_obj2crealary(rx);
o_ry= ALLOCA_N(real, i_jy*(i_n-1)+1);
vrrnm_(i_rx, o_ry, &i_n, &i_jx, &i_jy, &i_nb);
{int array_shape[1] = {i_jy*(i_n-1)+1};
ry = dcl_crealary2obj(o_ry, i_jy*(i_n-1)+1, 1, array_shape);
}
dcl_freecrealary(i_rx);
return ry;
}
static VALUE
dcl_vrrnm0(obj, rx, n, jx, jy, nb)
VALUE obj, rx, n, jx, jy, nb;
{
real *i_rx;
real *o_ry;
integer i_n;
integer i_jx;
integer i_jy;
integer i_nb;
VALUE ry;
if (TYPE(rx) == T_FLOAT) {
rx = rb_Array(rx);
}
/* if ((TYPE(rx) != T_ARRAY) &&
(rb_obj_is_kind_of(rx, cNArray) != Qtrue)) {
rb_raise(rb_eTypeError, "invalid type");
} -- no check since obj2c*ary will do that */
if ((TYPE(n) != T_BIGNUM) || (TYPE(n) != T_FIXNUM)) {
n = rb_funcall(n, rb_intern("to_i"), 0);
}
if ((TYPE(jx) != T_BIGNUM) || (TYPE(jx) != T_FIXNUM)) {
jx = rb_funcall(jx, rb_intern("to_i"), 0);
}
if ((TYPE(jy) != T_BIGNUM) || (TYPE(jy) != T_FIXNUM)) {
jy = rb_funcall(jy, rb_intern("to_i"), 0);
}
if ((TYPE(nb) != T_BIGNUM) || (TYPE(nb) != T_FIXNUM)) {
nb = rb_funcall(nb, rb_intern("to_i"), 0);
}
i_n = NUM2INT(n);
i_jx = NUM2INT(jx);
i_jy = NUM2INT(jy);
i_nb = NUM2INT(nb);
i_rx = dcl_obj2crealary(rx);
o_ry= ALLOCA_N(real, i_jy*(i_n-1)+1);
vrrnm0_(i_rx, o_ry, &i_n, &i_jx, &i_jy, &i_nb);
{int array_shape[1] = {i_jy*(i_n-1)+1};
ry = dcl_crealary2obj(o_ry, i_jy*(i_n-1)+1, 1, array_shape);
}
dcl_freecrealary(i_rx);
return ry;
}
static VALUE
dcl_vrrnm1(obj, rx, n, jx, jy, nb)
VALUE obj, rx, n, jx, jy, nb;
{
real *i_rx;
real *o_ry;
integer i_n;
integer i_jx;
integer i_jy;
integer i_nb;
VALUE ry;
if (TYPE(rx) == T_FLOAT) {
rx = rb_Array(rx);
}
/* if ((TYPE(rx) != T_ARRAY) &&
(rb_obj_is_kind_of(rx, cNArray) != Qtrue)) {
rb_raise(rb_eTypeError, "invalid type");
} -- no check since obj2c*ary will do that */
if ((TYPE(n) != T_BIGNUM) || (TYPE(n) != T_FIXNUM)) {
n = rb_funcall(n, rb_intern("to_i"), 0);
}
if ((TYPE(jx) != T_BIGNUM) || (TYPE(jx) != T_FIXNUM)) {
jx = rb_funcall(jx, rb_intern("to_i"), 0);
}
if ((TYPE(jy) != T_BIGNUM) || (TYPE(jy) != T_FIXNUM)) {
jy = rb_funcall(jy, rb_intern("to_i"), 0);
}
if ((TYPE(nb) != T_BIGNUM) || (TYPE(nb) != T_FIXNUM)) {
nb = rb_funcall(nb, rb_intern("to_i"), 0);
}
i_n = NUM2INT(n);
i_jx = NUM2INT(jx);
i_jy = NUM2INT(jy);
i_nb = NUM2INT(nb);
i_rx = dcl_obj2crealary(rx);
o_ry= ALLOCA_N(real, i_jx*(i_n-1)+1);
vrrnm1_(i_rx, o_ry, &i_n, &i_jx, &i_jy, &i_nb);
{int array_shape[1] = {i_jx*(i_n-1)+1};
ry = dcl_crealary2obj(o_ry, i_jx*(i_n-1)+1, 1, array_shape);
}
dcl_freecrealary(i_rx);
return ry;
}
void
init_math2_rnmlib(mDCL)
VALUE mDCL;
{
rb_define_module_function(mDCL, "vrrnm", dcl_vrrnm, 5);
rb_define_module_function(mDCL, "vrrnm0", dcl_vrrnm0, 5);
rb_define_module_function(mDCL, "vrrnm1", dcl_vrrnm1, 5);
}
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