509 lines
12 KiB
C
509 lines
12 KiB
C
/***********************************************************************/
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/* */
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/* OCaml */
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/* */
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/* Xavier Leroy, projet Cristal, INRIA Rocquencourt */
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/* */
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/* Copyright 1996 Institut National de Recherche en Informatique et */
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/* en Automatique. All rights reserved. This file is distributed */
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/* under the terms of the GNU Library General Public License, with */
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/* the special exception on linking described in file ../LICENSE. */
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/* */
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/***********************************************************************/
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/* The interface of this file is in "caml/mlvalues.h" and "caml/alloc.h" */
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#include <math.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include "caml/alloc.h"
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#include "caml/fail.h"
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#include "caml/memory.h"
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#include "caml/mlvalues.h"
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#include "caml/misc.h"
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#include "caml/reverse.h"
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#include "caml/stacks.h"
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#ifdef _MSC_VER
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#include <float.h>
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#define isnan _isnan
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#define isfinite _finite
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#endif
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#ifdef ARCH_ALIGN_DOUBLE
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CAMLexport double caml_Double_val(value val)
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{
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union { value v[2]; double d; } buffer;
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Assert(sizeof(double) == 2 * sizeof(value));
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buffer.v[0] = Field(val, 0);
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buffer.v[1] = Field(val, 1);
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return buffer.d;
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}
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CAMLexport void caml_Store_double_val(value val, double dbl)
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{
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union { value v[2]; double d; } buffer;
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Assert(sizeof(double) == 2 * sizeof(value));
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buffer.d = dbl;
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Field(val, 0) = buffer.v[0];
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Field(val, 1) = buffer.v[1];
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}
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#endif
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CAMLexport value caml_copy_double(double d)
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{
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value res;
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#define Setup_for_gc
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#define Restore_after_gc
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Alloc_small(res, Double_wosize, Double_tag);
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#undef Setup_for_gc
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#undef Restore_after_gc
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Store_double_val(res, d);
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return res;
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}
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CAMLprim value caml_format_float(value fmt, value arg)
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{
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value res;
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double d = Double_val(arg);
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#ifdef HAS_BROKEN_PRINTF
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if (isfinite(d)) {
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#endif
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res = caml_alloc_sprintf(String_val(fmt), d);
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#ifdef HAS_BROKEN_PRINTF
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} else {
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if (isnan(d)) {
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res = caml_copy_string("nan");
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} else {
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if (d > 0)
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res = caml_copy_string("inf");
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else
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res = caml_copy_string("-inf");
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}
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}
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#endif
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return res;
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}
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#if 0
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/*CAMLprim*/ value caml_float_of_substring(value vs, value idx, value l)
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{
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char parse_buffer[64];
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char * buf, * src, * dst, * end;
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mlsize_t len, lenvs;
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double d;
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intnat flen = Long_val(l);
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intnat fidx = Long_val(idx);
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lenvs = caml_string_length(vs);
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len =
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fidx >= 0 && fidx < lenvs && flen > 0 && flen <= lenvs - fidx
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? flen : 0;
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buf = len < sizeof(parse_buffer) ? parse_buffer : caml_stat_alloc(len + 1);
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src = String_val(vs) + fidx;
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dst = buf;
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while (len--) {
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char c = *src++;
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if (c != '_') *dst++ = c;
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}
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*dst = 0;
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if (dst == buf) goto error;
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d = strtod((const char *) buf, &end);
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if (end != dst) goto error;
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if (buf != parse_buffer) caml_stat_free(buf);
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return caml_copy_double(d);
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error:
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if (buf != parse_buffer) caml_stat_free(buf);
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caml_failwith("float_of_string");
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}
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#endif
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CAMLprim value caml_float_of_string(value vs)
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{
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char parse_buffer[64];
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char * buf, * src, * dst, * end;
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mlsize_t len;
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double d;
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len = caml_string_length(vs);
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buf = len < sizeof(parse_buffer) ? parse_buffer : caml_stat_alloc(len + 1);
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src = String_val(vs);
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dst = buf;
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while (len--) {
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char c = *src++;
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if (c != '_') *dst++ = c;
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}
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*dst = 0;
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if (dst == buf) goto error;
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d = strtod((const char *) buf, &end);
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if (end != dst) goto error;
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if (buf != parse_buffer) caml_stat_free(buf);
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return caml_copy_double(d);
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error:
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if (buf != parse_buffer) caml_stat_free(buf);
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caml_failwith("float_of_string");
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}
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CAMLprim value caml_int_of_float(value f)
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{
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return Val_long((intnat) Double_val(f));
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}
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CAMLprim value caml_float_of_int(value n)
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{
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return caml_copy_double((double) Long_val(n));
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}
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CAMLprim value caml_neg_float(value f)
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{
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return caml_copy_double(- Double_val(f));
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}
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CAMLprim value caml_abs_float(value f)
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{
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return caml_copy_double(fabs(Double_val(f)));
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}
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CAMLprim value caml_add_float(value f, value g)
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{
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return caml_copy_double(Double_val(f) + Double_val(g));
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}
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CAMLprim value caml_sub_float(value f, value g)
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{
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return caml_copy_double(Double_val(f) - Double_val(g));
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}
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CAMLprim value caml_mul_float(value f, value g)
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{
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return caml_copy_double(Double_val(f) * Double_val(g));
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}
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CAMLprim value caml_div_float(value f, value g)
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{
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return caml_copy_double(Double_val(f) / Double_val(g));
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}
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CAMLprim value caml_exp_float(value f)
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{
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return caml_copy_double(exp(Double_val(f)));
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}
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CAMLprim value caml_floor_float(value f)
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{
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return caml_copy_double(floor(Double_val(f)));
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}
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CAMLprim value caml_fmod_float(value f1, value f2)
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{
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return caml_copy_double(fmod(Double_val(f1), Double_val(f2)));
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}
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CAMLprim value caml_frexp_float(value f)
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{
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CAMLparam1 (f);
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CAMLlocal2 (res, mantissa);
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int exponent;
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mantissa = caml_copy_double(frexp (Double_val(f), &exponent));
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res = caml_alloc_tuple(2);
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Field(res, 0) = mantissa;
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Field(res, 1) = Val_int(exponent);
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CAMLreturn (res);
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}
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CAMLprim value caml_ldexp_float(value f, value i)
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{
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return caml_copy_double(ldexp(Double_val(f), Int_val(i)));
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}
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CAMLprim value caml_log_float(value f)
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{
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return caml_copy_double(log(Double_val(f)));
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}
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CAMLprim value caml_log10_float(value f)
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{
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return caml_copy_double(log10(Double_val(f)));
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}
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CAMLprim value caml_modf_float(value f)
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{
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double frem;
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CAMLparam1 (f);
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CAMLlocal3 (res, quo, rem);
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quo = caml_copy_double(modf (Double_val(f), &frem));
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rem = caml_copy_double(frem);
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res = caml_alloc_tuple(2);
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Field(res, 0) = quo;
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Field(res, 1) = rem;
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CAMLreturn (res);
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}
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CAMLprim value caml_sqrt_float(value f)
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{
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return caml_copy_double(sqrt(Double_val(f)));
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}
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CAMLprim value caml_power_float(value f, value g)
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{
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return caml_copy_double(pow(Double_val(f), Double_val(g)));
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}
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CAMLprim value caml_sin_float(value f)
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{
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return caml_copy_double(sin(Double_val(f)));
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}
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CAMLprim value caml_sinh_float(value f)
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{
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return caml_copy_double(sinh(Double_val(f)));
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}
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CAMLprim value caml_cos_float(value f)
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{
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return caml_copy_double(cos(Double_val(f)));
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}
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CAMLprim value caml_cosh_float(value f)
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{
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return caml_copy_double(cosh(Double_val(f)));
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}
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CAMLprim value caml_tan_float(value f)
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{
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return caml_copy_double(tan(Double_val(f)));
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}
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CAMLprim value caml_tanh_float(value f)
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{
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return caml_copy_double(tanh(Double_val(f)));
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}
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CAMLprim value caml_asin_float(value f)
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{
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return caml_copy_double(asin(Double_val(f)));
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}
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CAMLprim value caml_acos_float(value f)
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{
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return caml_copy_double(acos(Double_val(f)));
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}
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CAMLprim value caml_atan_float(value f)
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{
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return caml_copy_double(atan(Double_val(f)));
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}
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CAMLprim value caml_atan2_float(value f, value g)
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{
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return caml_copy_double(atan2(Double_val(f), Double_val(g)));
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}
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CAMLprim value caml_ceil_float(value f)
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{
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return caml_copy_double(ceil(Double_val(f)));
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}
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CAMLexport double caml_hypot(double x, double y)
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{
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#ifdef HAS_C99_FLOAT_OPS
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return hypot(x, y);
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#else
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double tmp, ratio;
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if (x != x) return x; /* NaN */
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if (y != y) return y; /* NaN */
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x = fabs(x); y = fabs(y);
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if (x < y) { tmp = x; x = y; y = tmp; }
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if (x == 0.0) return 0.0;
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ratio = y / x;
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return x * sqrt(1.0 + ratio * ratio);
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#endif
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}
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CAMLprim value caml_hypot_float(value f, value g)
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{
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return caml_copy_double(caml_hypot(Double_val(f), Double_val(g)));
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}
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/* These emulations of expm1() and log1p() are due to William Kahan.
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See http://www.plunk.org/~hatch/rightway.php */
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CAMLexport double caml_expm1(double x)
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{
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#ifdef HAS_C99_FLOAT_OPS
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return expm1(x);
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#else
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double u = exp(x);
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if (u == 1.)
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return x;
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if (u - 1. == -1.)
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return -1.;
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return (u - 1.) * x / log(u);
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#endif
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}
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CAMLexport double caml_log1p(double x)
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{
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#ifdef HAS_C99_FLOAT_OPS
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return log1p(x);
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#else
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double u = 1. + x;
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if (u == 1.)
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return x;
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else
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return log(u) * x / (u - 1.);
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#endif
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}
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CAMLprim value caml_expm1_float(value f)
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{
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return caml_copy_double(caml_expm1(Double_val(f)));
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}
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CAMLprim value caml_log1p_float(value f)
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{
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return caml_copy_double(caml_log1p(Double_val(f)));
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}
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union double_as_two_int32 {
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double d;
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#if defined(ARCH_BIG_ENDIAN) || (defined(__arm__) && !defined(__ARM_EABI__))
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struct { uint32_t h; uint32_t l; } i;
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#else
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struct { uint32_t l; uint32_t h; } i;
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#endif
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};
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CAMLexport double caml_copysign(double x, double y)
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{
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#ifdef HAS_C99_FLOAT_OPS
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return copysign(x, y);
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#else
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union double_as_two_int32 ux, uy;
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ux.d = x;
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uy.d = y;
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ux.i.h &= 0x7FFFFFFFU;
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ux.i.h |= (uy.i.h & 0x80000000U);
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return ux.d;
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#endif
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}
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CAMLprim value caml_copysign_float(value f, value g)
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{
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return caml_copy_double(caml_copysign(Double_val(f), Double_val(g)));
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}
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CAMLprim value caml_eq_float(value f, value g)
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{
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return Val_bool(Double_val(f) == Double_val(g));
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}
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CAMLprim value caml_neq_float(value f, value g)
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{
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return Val_bool(Double_val(f) != Double_val(g));
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}
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CAMLprim value caml_le_float(value f, value g)
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{
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return Val_bool(Double_val(f) <= Double_val(g));
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}
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CAMLprim value caml_lt_float(value f, value g)
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{
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return Val_bool(Double_val(f) < Double_val(g));
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}
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CAMLprim value caml_ge_float(value f, value g)
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{
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return Val_bool(Double_val(f) >= Double_val(g));
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}
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CAMLprim value caml_gt_float(value f, value g)
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{
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return Val_bool(Double_val(f) > Double_val(g));
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}
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CAMLprim value caml_float_compare(value vf, value vg)
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{
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double f = Double_val(vf);
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double g = Double_val(vg);
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if (f == g) return Val_int(0);
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if (f < g) return Val_int(-1);
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if (f > g) return Val_int(1);
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/* One or both of f and g is NaN. Order according to the
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convention NaN = NaN and NaN < x for all other floats x. */
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if (f == f) return Val_int(1); /* f is not NaN, g is NaN */
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if (g == g) return Val_int(-1); /* g is not NaN, f is NaN */
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return Val_int(0); /* both f and g are NaN */
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}
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enum { FP_normal, FP_subnormal, FP_zero, FP_infinite, FP_nan };
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CAMLprim value caml_classify_float(value vd)
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{
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/* Cygwin 1.3 has problems with fpclassify (PR#1293), so don't use it */
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#if defined(fpclassify) && !defined(__CYGWIN32__) && !defined(__MINGW32__)
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switch (fpclassify(Double_val(vd))) {
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case FP_NAN:
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return Val_int(FP_nan);
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case FP_INFINITE:
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return Val_int(FP_infinite);
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case FP_ZERO:
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return Val_int(FP_zero);
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case FP_SUBNORMAL:
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return Val_int(FP_subnormal);
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default: /* case FP_NORMAL */
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return Val_int(FP_normal);
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}
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#else
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union double_as_two_int32 u;
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uint32_t h, l;
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u.d = Double_val(vd);
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h = u.i.h; l = u.i.l;
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l = l | (h & 0xFFFFF);
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h = h & 0x7FF00000;
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if ((h | l) == 0)
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return Val_int(FP_zero);
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if (h == 0)
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return Val_int(FP_subnormal);
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if (h == 0x7FF00000) {
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if (l == 0)
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return Val_int(FP_infinite);
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else
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return Val_int(FP_nan);
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}
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return Val_int(FP_normal);
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#endif
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}
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/* The [caml_init_ieee_float] function should initialize floating-point hardware
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so that it behaves as much as possible like the IEEE standard.
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In particular, return special numbers like Infinity and NaN instead
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of signalling exceptions. Currently, everyone is in IEEE mode
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at program startup, except FreeBSD prior to 4.0R. */
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#ifdef __FreeBSD__
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#include <osreldate.h>
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#if (__FreeBSD_version < 400017)
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#include <floatingpoint.h>
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#endif
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#endif
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void caml_init_ieee_floats(void)
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{
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#if defined(__FreeBSD__) && (__FreeBSD_version < 400017)
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fpsetmask(0);
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#endif
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}
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