668 lines
17 KiB
C
668 lines
17 KiB
C
/***********************************************************************/
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/* */
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/* Objective Caml */
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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. */
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/* */
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/***********************************************************************/
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/* $Id$ */
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#include <stdio.h>
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#include <string.h>
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#include "alloc.h"
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#include "custom.h"
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#include "fail.h"
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#include "intext.h"
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#include "memory.h"
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#include "misc.h"
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#include "mlvalues.h"
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static char * parse_sign_and_base(char * p,
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/*out*/ int * base,
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/*out*/ int * sign)
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{
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*sign = 1;
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if (*p == '-') {
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*sign = -1;
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p++;
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}
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*base = 10;
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if (*p == '0') {
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switch (p[1]) {
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case 'x': case 'X':
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*base = 16; p += 2; break;
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case 'o': case 'O':
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*base = 8; p += 2; break;
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case 'b': case 'B':
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*base = 2; p += 2; break;
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}
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}
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return p;
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}
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static int parse_digit(char * p)
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{
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int c = *p;
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if (c >= '0' && c <= '9')
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return c - '0';
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else if (c >= 'A' && c <= 'F')
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return c - 'A' + 10;
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else if (c >= 'a' && c <= 'f')
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return c - 'a' + 10;
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else
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return -1;
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}
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static long parse_long(char * p)
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{
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unsigned long res;
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int sign, base, d;
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p = parse_sign_and_base(p, &base, &sign);
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d = parse_digit(p);
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if (d < 0 || d >= base) failwith("int_of_string");
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for (p++, res = d; /*nothing*/; p++) {
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d = parse_digit(p);
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if (d < 0 || d >= base) break;
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res = base * res + d;
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}
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if (*p != 0) failwith("int_of_string");
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return sign < 0 ? -((long) res) : (long) res;
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}
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CAMLprim value int_of_string(value s)
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{
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return Val_long(parse_long(String_val(s)));
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}
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#define FORMAT_BUFFER_SIZE 32
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static char * parse_format(value fmt,
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char * suffix,
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char format_string[],
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char default_format_buffer[])
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{
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int prec, lastletter;
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char * p;
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mlsize_t len, len_suffix;
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/* Copy Caml format fmt to format_string,
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adding the suffix before the last letter of the format */
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len = string_length(fmt);
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len_suffix = strlen(suffix);
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if (len + len_suffix + 1 >= FORMAT_BUFFER_SIZE)
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invalid_argument("format_int: format too long");
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memmove(format_string, String_val(fmt), len);
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p = format_string + len - 1;
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lastletter = *p;
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memmove(p, suffix, len_suffix); p += len_suffix;
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*p++ = lastletter;
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*p = 0;
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/* Determine space needed for result and allocate it dynamically if needed */
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prec = 32;
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for (p = String_val(fmt); *p != 0; p++) {
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if (*p >= '0' && *p <= '9') {
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prec = atoi(p) + 5;
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break;
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}
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}
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if (prec < FORMAT_BUFFER_SIZE)
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return default_format_buffer;
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else
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return stat_alloc(prec + 1);
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}
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CAMLprim value format_int(value fmt, value arg)
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{
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char format_string[FORMAT_BUFFER_SIZE];
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char default_format_buffer[FORMAT_BUFFER_SIZE];
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char * buffer;
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value res;
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buffer = parse_format(fmt, "l", format_string, default_format_buffer);
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sprintf(buffer, format_string, Long_val(arg));
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res = copy_string(buffer);
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if (buffer != default_format_buffer) stat_free(buffer);
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return res;
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}
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/* 32-bit integers */
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static int int32_compare(value v1, value v2)
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{
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int32 i1 = Int32_val(v1);
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int32 i2 = Int32_val(v2);
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return i1 == i2 ? 0 : i1 < i2 ? -1 : 1;
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}
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static long int32_hash(value v)
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{
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return Int32_val(v);
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}
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static void int32_serialize(value v, unsigned long * wsize_32,
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unsigned long * wsize_64)
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{
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serialize_int_4(Int32_val(v));
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*wsize_32 = *wsize_64 = 4;
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}
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static unsigned long int32_deserialize(void * dst)
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{
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*((int32 *) dst) = deserialize_sint_4();
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return 4;
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}
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CAMLexport struct custom_operations int32_ops = {
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"_i",
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custom_finalize_default,
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int32_compare,
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int32_hash,
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int32_serialize,
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int32_deserialize
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};
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CAMLexport value copy_int32(int32 i)
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{
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value res = alloc_custom(&int32_ops, 4, 0, 1);
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Int32_val(res) = i;
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return res;
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}
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CAMLprim value int32_neg(value v)
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{ return copy_int32(- Int32_val(v)); }
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CAMLprim value int32_add(value v1, value v2)
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{ return copy_int32(Int32_val(v1) + Int32_val(v2)); }
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CAMLprim value int32_sub(value v1, value v2)
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{ return copy_int32(Int32_val(v1) - Int32_val(v2)); }
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CAMLprim value int32_mul(value v1, value v2)
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{ return copy_int32(Int32_val(v1) * Int32_val(v2)); }
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CAMLprim value int32_div(value v1, value v2)
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{
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int32 divisor = Int32_val(v2);
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if (divisor == 0) raise_zero_divide();
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return copy_int32(Int32_val(v1) / divisor);
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}
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CAMLprim value int32_mod(value v1, value v2)
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{
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int32 divisor = Int32_val(v2);
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if (divisor == 0) raise_zero_divide();
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return copy_int32(Int32_val(v1) % divisor);
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}
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CAMLprim value int32_and(value v1, value v2)
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{ return copy_int32(Int32_val(v1) & Int32_val(v2)); }
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CAMLprim value int32_or(value v1, value v2)
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{ return copy_int32(Int32_val(v1) | Int32_val(v2)); }
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CAMLprim value int32_xor(value v1, value v2)
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{ return copy_int32(Int32_val(v1) ^ Int32_val(v2)); }
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CAMLprim value int32_shift_left(value v1, value v2)
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{ return copy_int32(Int32_val(v1) << Int_val(v2)); }
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CAMLprim value int32_shift_right(value v1, value v2)
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{ return copy_int32(Int32_val(v1) >> Int_val(v2)); }
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CAMLprim value int32_shift_right_unsigned(value v1, value v2)
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{ return copy_int32((uint32)Int32_val(v1) >> Int_val(v2)); }
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CAMLprim value int32_of_int(value v)
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{ return copy_int32(Long_val(v)); }
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CAMLprim value int32_to_int(value v)
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{ return Val_long(Int32_val(v)); }
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CAMLprim value int32_of_float(value v)
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{ return copy_int32((int32)(Double_val(v))); }
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CAMLprim value int32_to_float(value v)
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{ return copy_double((double)(Int32_val(v))); }
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CAMLprim value int32_format(value fmt, value arg)
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{
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char format_string[FORMAT_BUFFER_SIZE];
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char default_format_buffer[FORMAT_BUFFER_SIZE];
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char * buffer;
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value res;
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buffer = parse_format(fmt, "", format_string, default_format_buffer);
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sprintf(buffer, format_string, (long) Int32_val(arg));
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res = copy_string(buffer);
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if (buffer != default_format_buffer) stat_free(buffer);
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return res;
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}
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CAMLprim value int32_of_string(value s)
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{
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return copy_int32(parse_long(String_val(s)));
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}
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/* 64-bit integers */
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#ifdef ARCH_INT64_TYPE
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#ifdef ARCH_ALIGN_INT64
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CAMLexport int64 Int64_val(value v)
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{
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union { int32 i[2]; int64 j; } buffer;
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buffer.i[0] = ((int32 *) Data_custom_val(v))[0];
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buffer.i[1] = ((int32 *) Data_custom_val(v))[1];
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return buffer.j;
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}
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#endif
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static int int64_compare(value v1, value v2)
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{
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int64 i1 = Int64_val(v1);
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int64 i2 = Int64_val(v2);
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return i1 == i2 ? 0 : i1 < i2 ? -1 : 1;
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}
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static long int64_hash(value v)
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{
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return (long) Int64_val(v);
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}
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static void int64_serialize(value v, unsigned long * wsize_32,
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unsigned long * wsize_64)
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{
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serialize_int_8(Int64_val(v));
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*wsize_32 = *wsize_64 = 8;
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}
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static unsigned long int64_deserialize(void * dst)
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{
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*((int64 *) dst) = deserialize_sint_8();
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return 8;
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}
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CAMLexport struct custom_operations int64_ops = {
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"_j",
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custom_finalize_default,
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int64_compare,
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int64_hash,
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int64_serialize,
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int64_deserialize
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};
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CAMLexport value copy_int64(int64 i)
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{
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value res = alloc_custom(&int64_ops, 8, 0, 1);
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#ifndef ARCH_ALIGN_INT64
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Int64_val(res) = i;
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#else
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union { int32 i[2]; int64 j; } buffer;
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buffer.j = i;
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((int32 *) Data_custom_val(res))[0] = buffer.i[0];
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((int32 *) Data_custom_val(res))[1] = buffer.i[1];
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#endif
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return res;
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}
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CAMLprim value int64_neg(value v)
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{ return copy_int64(- Int64_val(v)); }
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CAMLprim value int64_add(value v1, value v2)
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{ return copy_int64(Int64_val(v1) + Int64_val(v2)); }
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CAMLprim value int64_sub(value v1, value v2)
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{ return copy_int64(Int64_val(v1) - Int64_val(v2)); }
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CAMLprim value int64_mul(value v1, value v2)
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{ return copy_int64(Int64_val(v1) * Int64_val(v2)); }
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CAMLprim value int64_div(value v1, value v2)
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{
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int64 divisor = Int64_val(v2);
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if (divisor == 0) raise_zero_divide();
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return copy_int64(Int64_val(v1) / divisor);
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}
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CAMLprim value int64_mod(value v1, value v2)
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{
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int64 divisor = Int64_val(v2);
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if (divisor == 0) raise_zero_divide();
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return copy_int64(Int64_val(v1) % divisor);
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}
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CAMLprim value int64_and(value v1, value v2)
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{ return copy_int64(Int64_val(v1) & Int64_val(v2)); }
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CAMLprim value int64_or(value v1, value v2)
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{ return copy_int64(Int64_val(v1) | Int64_val(v2)); }
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CAMLprim value int64_xor(value v1, value v2)
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{ return copy_int64(Int64_val(v1) ^ Int64_val(v2)); }
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CAMLprim value int64_shift_left(value v1, value v2)
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{ return copy_int64(Int64_val(v1) << Int_val(v2)); }
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CAMLprim value int64_shift_right(value v1, value v2)
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{ return copy_int64(Int64_val(v1) >> Int_val(v2)); }
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CAMLprim value int64_shift_right_unsigned(value v1, value v2)
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{ return copy_int64((uint64)Int64_val(v1) >> Int_val(v2)); }
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CAMLprim value int64_of_int(value v)
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{ return copy_int64(Long_val(v)); }
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CAMLprim value int64_to_int(value v)
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{ return Val_long((long) Int64_val(v)); }
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CAMLprim value int64_of_float(value v)
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{ return copy_int64((int64)(Double_val(v))); }
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CAMLprim value int64_to_float(value v)
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{ return copy_double((double)(Int64_val(v))); }
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CAMLprim value int64_of_int32(value v)
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{ return copy_int64(Int32_val(v)); }
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CAMLprim value int64_to_int32(value v)
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{ return copy_int32((int32) Int64_val(v)); }
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CAMLprim value int64_of_nativeint(value v)
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{ return copy_int64(Nativeint_val(v)); }
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CAMLprim value int64_to_nativeint(value v)
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{ return copy_nativeint((long) Int64_val(v)); }
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CAMLprim value int64_format(value fmt, value arg)
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#ifdef ARCH_INT64_PRINTF_FORMAT
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{
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char format_string[FORMAT_BUFFER_SIZE];
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char default_format_buffer[FORMAT_BUFFER_SIZE];
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char * buffer;
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value res;
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buffer = parse_format(fmt, ARCH_INT64_PRINTF_FORMAT,
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format_string, default_format_buffer);
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sprintf(buffer, format_string, Int64_val(arg));
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res = copy_string(buffer);
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if (buffer != default_format_buffer) stat_free(buffer);
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return res;
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}
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#else
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{ invalid_argument ("Int64.format is not implemented on this platform"); }
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#endif
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CAMLprim value int64_of_string(value s)
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{
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char * p;
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uint64 res;
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int sign, base, d;
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p = parse_sign_and_base(String_val(s), &base, &sign);
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d = parse_digit(p);
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if (d < 0 || d >= base) failwith("int_of_string");
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for (p++, res = d; /*nothing*/; p++) {
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d = parse_digit(p);
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if (d < 0 || d >= base) break;
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res = base * res + d;
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}
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if (*p != 0) failwith("int_of_string");
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return copy_int64(sign < 0 ? -((int64) res) : (int64) res);
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}
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CAMLprim value int64_bits_of_float(value vd)
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{
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union { double d; int64 i; } u;
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u.d = Double_val(vd);
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return copy_int64(u.i);
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}
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CAMLprim value int64_float_of_bits(value vi)
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{
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union { double d; int64 i; } u;
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u.i = Int64_val(vi);
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return copy_double(u.d);
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}
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#else
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static char int64_error[] =
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"The type Int64.t is not supported on this platform";
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value copy_int64(int64 i)
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{ invalid_argument(int64_error); }
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value int64_neg(value v)
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{ invalid_argument(int64_error); }
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value int64_add(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_sub(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_mul(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_div(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_mod(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_and(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_or(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_xor(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_shift_left(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_shift_right(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_shift_right_unsigned(value v1, value v2)
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{ invalid_argument(int64_error); }
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value int64_of_int(value v)
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{ invalid_argument(int64_error); }
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value int64_to_int(value v)
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{ invalid_argument(int64_error); }
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value int64_of_float(value v)
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{ invalid_argument(int64_error); }
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value int64_to_float(value v)
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{ invalid_argument(int64_error); }
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value int64_of_int32(value v)
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{ invalid_argument(int64_error); }
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value int64_to_int32(value v)
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{ invalid_argument(int64_error); }
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value int64_of_nativeint(value v)
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{ invalid_argument(int64_error); }
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value int64_to_nativeint(value v)
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{ invalid_argument(int64_error); }
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value int64_format(value fmt, value arg)
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{ invalid_argument(int64_error); }
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value int64_of_string(value s)
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{ invalid_argument(int64_error); }
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value int64_bits_of_float(value vd)
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{ invalid_argument(int64_error); }
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value int64_float_of_bits(value vi)
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{ invalid_argument(int64_error); }
|
|
|
|
#endif
|
|
|
|
/* Native integers */
|
|
|
|
static int nativeint_compare(value v1, value v2)
|
|
{
|
|
long i1 = Nativeint_val(v1);
|
|
long i2 = Nativeint_val(v2);
|
|
return i1 == i2 ? 0 : i1 < i2 ? -1 : 1;
|
|
}
|
|
|
|
static long nativeint_hash(value v)
|
|
{
|
|
return Nativeint_val(v);
|
|
}
|
|
|
|
static void nativeint_serialize(value v, unsigned long * wsize_32,
|
|
unsigned long * wsize_64)
|
|
{
|
|
long l = Nativeint_val(v);
|
|
#ifdef ARCH_SIXTYFOUR
|
|
if (l <= 0x7FFFFFFFL && l >= -0x80000000L) {
|
|
serialize_int_1(1);
|
|
serialize_int_4((int32) l);
|
|
} else {
|
|
serialize_int_1(2);
|
|
serialize_int_8(l);
|
|
}
|
|
#else
|
|
serialize_int_1(1);
|
|
serialize_int_4(l);
|
|
#endif
|
|
*wsize_32 = 4;
|
|
*wsize_64 = 8;
|
|
}
|
|
|
|
static unsigned long nativeint_deserialize(void * dst)
|
|
{
|
|
switch (deserialize_uint_1()) {
|
|
case 1:
|
|
*((long *) dst) = deserialize_sint_4();
|
|
break;
|
|
case 2:
|
|
#ifdef ARCH_SIXTYFOUR
|
|
*((long *) dst) = deserialize_sint_8();
|
|
#else
|
|
deserialize_error("input_value: native integer value too large");
|
|
#endif
|
|
break;
|
|
default:
|
|
deserialize_error("input_value: ill-formed native integer");
|
|
}
|
|
return sizeof(long);
|
|
}
|
|
|
|
CAMLexport struct custom_operations nativeint_ops = {
|
|
"_n",
|
|
custom_finalize_default,
|
|
nativeint_compare,
|
|
nativeint_hash,
|
|
nativeint_serialize,
|
|
nativeint_deserialize
|
|
};
|
|
|
|
CAMLexport value copy_nativeint(long i)
|
|
{
|
|
value res = alloc_custom(&nativeint_ops, sizeof(long), 0, 1);
|
|
Nativeint_val(res) = i;
|
|
return res;
|
|
}
|
|
|
|
CAMLprim value nativeint_neg(value v)
|
|
{ return copy_nativeint(- Nativeint_val(v)); }
|
|
|
|
CAMLprim value nativeint_add(value v1, value v2)
|
|
{ return copy_nativeint(Nativeint_val(v1) + Nativeint_val(v2)); }
|
|
|
|
CAMLprim value nativeint_sub(value v1, value v2)
|
|
{ return copy_nativeint(Nativeint_val(v1) - Nativeint_val(v2)); }
|
|
|
|
CAMLprim value nativeint_mul(value v1, value v2)
|
|
{ return copy_nativeint(Nativeint_val(v1) * Nativeint_val(v2)); }
|
|
|
|
CAMLprim value nativeint_div(value v1, value v2)
|
|
{
|
|
long divisor = Nativeint_val(v2);
|
|
if (divisor == 0) raise_zero_divide();
|
|
return copy_nativeint(Nativeint_val(v1) / divisor);
|
|
}
|
|
|
|
CAMLprim value nativeint_mod(value v1, value v2)
|
|
{
|
|
long divisor = Nativeint_val(v2);
|
|
if (divisor == 0) raise_zero_divide();
|
|
return copy_nativeint(Nativeint_val(v1) % divisor);
|
|
}
|
|
|
|
CAMLprim value nativeint_and(value v1, value v2)
|
|
{ return copy_nativeint(Nativeint_val(v1) & Nativeint_val(v2)); }
|
|
|
|
CAMLprim value nativeint_or(value v1, value v2)
|
|
{ return copy_nativeint(Nativeint_val(v1) | Nativeint_val(v2)); }
|
|
|
|
CAMLprim value nativeint_xor(value v1, value v2)
|
|
{ return copy_nativeint(Nativeint_val(v1) ^ Nativeint_val(v2)); }
|
|
|
|
CAMLprim value nativeint_shift_left(value v1, value v2)
|
|
{ return copy_nativeint(Nativeint_val(v1) << Int_val(v2)); }
|
|
|
|
CAMLprim value nativeint_shift_right(value v1, value v2)
|
|
{ return copy_nativeint(Nativeint_val(v1) >> Int_val(v2)); }
|
|
|
|
CAMLprim value nativeint_shift_right_unsigned(value v1, value v2)
|
|
{ return copy_nativeint((unsigned long)Nativeint_val(v1) >> Int_val(v2)); }
|
|
|
|
CAMLprim value nativeint_of_int(value v)
|
|
{ return copy_nativeint(Long_val(v)); }
|
|
|
|
CAMLprim value nativeint_to_int(value v)
|
|
{ return Val_long(Nativeint_val(v)); }
|
|
|
|
CAMLprim value nativeint_of_float(value v)
|
|
{ return copy_nativeint((long)(Double_val(v))); }
|
|
|
|
CAMLprim value nativeint_to_float(value v)
|
|
{ return copy_double((double)(Nativeint_val(v))); }
|
|
|
|
CAMLprim value nativeint_of_int32(value v)
|
|
{ return copy_nativeint(Int32_val(v)); }
|
|
|
|
CAMLprim value nativeint_to_int32(value v)
|
|
{ return copy_int32(Nativeint_val(v)); }
|
|
|
|
CAMLprim value nativeint_format(value fmt, value arg)
|
|
{
|
|
char format_string[FORMAT_BUFFER_SIZE];
|
|
char default_format_buffer[FORMAT_BUFFER_SIZE];
|
|
char * buffer;
|
|
value res;
|
|
|
|
buffer = parse_format(fmt, "l", format_string, default_format_buffer);
|
|
sprintf(buffer, format_string, (long) Nativeint_val(arg));
|
|
res = copy_string(buffer);
|
|
if (buffer != default_format_buffer) stat_free(buffer);
|
|
return res;
|
|
}
|
|
|
|
CAMLprim value nativeint_of_string(value s)
|
|
{
|
|
return copy_nativeint(parse_long(String_val(s)));
|
|
}
|
|
|
|
|