/* * $Id: p_header,v 1.4 2000/11/27 01:57:01 keiko Exp $ */ #include #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_vignn(obj, n, jx) VALUE obj, n, jx; { integer *o_ix; integer i_n; integer i_jx; VALUE ix; 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); } i_n = NUM2INT(n); i_jx = NUM2INT(jx); o_ix= ALLOCA_N(integer, i_jx*(i_n-1)+1); vignn_(o_ix, &i_n, &i_jx); {int array_shape[1] = {i_jx*(i_n-1)+1}; ix = dcl_cintegerary2obj(o_ix, i_jx*(i_n-1)+1, 1, array_shape); } return ix; } static VALUE dcl_vrgnn(obj, n, jx) VALUE obj, n, jx; { real *o_rx; integer i_n; integer i_jx; VALUE rx; 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); } i_n = NUM2INT(n); i_jx = NUM2INT(jx); o_rx= ALLOCA_N(real, i_jx*(i_n-1)+1); vrgnn_(o_rx, &i_n, &i_jx); {int array_shape[1] = {i_jx*(i_n-1)+1}; rx = dcl_crealary2obj(o_rx, i_jx*(i_n-1)+1, 1, array_shape); } return rx; } static VALUE dcl_dxfloc(obj, nd, ns, np) VALUE obj, nd, ns, np; { integer i_nd; integer *i_ns; integer *i_np; integer o_ncp; VALUE ncp; if ((TYPE(nd) != T_BIGNUM) || (TYPE(nd) != T_FIXNUM)) { nd = rb_funcall(nd, rb_intern("to_i"), 0); } if ((TYPE(ns) == T_BIGNUM) || (TYPE(ns) == T_FIXNUM)) { ns = rb_Array(ns); } /* if ((TYPE(ns) != T_ARRAY) && (rb_obj_is_kind_of(ns, cNArray) != Qtrue)) { rb_raise(rb_eTypeError, "invalid type"); } -- no check since obj2c*ary will do that */ if ((TYPE(np) == T_BIGNUM) || (TYPE(np) == T_FIXNUM)) { np = rb_Array(np); } /* if ((TYPE(np) != T_ARRAY) && (rb_obj_is_kind_of(np, cNArray) != Qtrue)) { rb_raise(rb_eTypeError, "invalid type"); } -- no check since obj2c*ary will do that */ i_nd = NUM2INT(nd); i_ns = dcl_obj2cintegerary(ns); i_np = dcl_obj2cintegerary(np); dxfloc_(&i_nd, i_ns, i_np, &o_ncp); ncp = INT2NUM(o_ncp); dcl_freecintegerary(i_ns); dcl_freecintegerary(i_np); return ncp; } static VALUE dcl_dxiloc(obj, nd, ns, ncp) VALUE obj, nd, ns, ncp; { integer i_nd; integer *i_ns; integer *o_np; integer i_ncp; VALUE np; if ((TYPE(nd) != T_BIGNUM) || (TYPE(nd) != T_FIXNUM)) { nd = rb_funcall(nd, rb_intern("to_i"), 0); } if ((TYPE(ns) == T_BIGNUM) || (TYPE(ns) == T_FIXNUM)) { ns = rb_Array(ns); } /* if ((TYPE(ns) != T_ARRAY) && (rb_obj_is_kind_of(ns, cNArray) != Qtrue)) { rb_raise(rb_eTypeError, "invalid type"); } -- no check since obj2c*ary will do that */ if ((TYPE(ncp) != T_BIGNUM) || (TYPE(ncp) != T_FIXNUM)) { ncp = rb_funcall(ncp, rb_intern("to_i"), 0); } i_nd = NUM2INT(nd); i_ncp = NUM2INT(ncp); i_ns = dcl_obj2cintegerary(ns); o_np= ALLOCA_N(integer, (i_nd)); dxiloc_(&i_nd, i_ns, o_np, &i_ncp); {int array_shape[1] = {i_nd}; np = dcl_cintegerary2obj(o_np, (i_nd), 1, array_shape); } dcl_freecintegerary(i_ns); return np; } void init_math1_sublib(mDCL) VALUE mDCL; { rb_define_module_function(mDCL, "vignn", dcl_vignn, 2); rb_define_module_function(mDCL, "vrgnn", dcl_vrgnn, 2); rb_define_module_function(mDCL, "dxfloc", dcl_dxfloc, 3); rb_define_module_function(mDCL, "dxiloc", dcl_dxiloc, 3); }