323 lines
10 KiB
C
323 lines
10 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. */
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/* */
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/* All rights reserved. This file is distributed under the terms of */
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/* the GNU Lesser General Public License version 2.1, with the */
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/* special exception on linking described in the file LICENSE. */
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/* */
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/**************************************************************************/
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#include <string.h>
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#include <stdlib.h>
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#include "caml/custom.h"
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#include "caml/fail.h"
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#include "caml/memory.h"
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#include "caml/misc.h"
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#include "caml/mlvalues.h"
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/* Structural comparison on trees. */
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struct compare_item { value * v1, * v2; mlsize_t count; };
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#define COMPARE_STACK_INIT_SIZE 256
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#define COMPARE_STACK_MAX_SIZE (1024*1024)
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static struct compare_item compare_stack_init[COMPARE_STACK_INIT_SIZE];
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static struct compare_item * compare_stack = compare_stack_init;
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static struct compare_item * compare_stack_limit = compare_stack_init
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+ COMPARE_STACK_INIT_SIZE;
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CAMLexport int caml_compare_unordered;
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/* Free the compare stack if needed */
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static void compare_free_stack(void)
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{
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if (compare_stack != compare_stack_init) {
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free(compare_stack);
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/* Reinitialize the globals for next time around */
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compare_stack = compare_stack_init;
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compare_stack_limit = compare_stack + COMPARE_STACK_INIT_SIZE;
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}
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}
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/* Same, then raise Out_of_memory */
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static void compare_stack_overflow(void)
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{
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caml_gc_message (0x04, "Stack overflow in structural comparison\n", 0);
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compare_free_stack();
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caml_raise_out_of_memory();
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}
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/* Grow the compare stack */
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static struct compare_item * compare_resize_stack(struct compare_item * sp)
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{
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asize_t newsize = 2 * (compare_stack_limit - compare_stack);
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asize_t sp_offset = sp - compare_stack;
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struct compare_item * newstack;
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if (newsize >= COMPARE_STACK_MAX_SIZE) compare_stack_overflow();
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if (compare_stack == compare_stack_init) {
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newstack = malloc(sizeof(struct compare_item) * newsize);
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if (newstack == NULL) compare_stack_overflow();
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memcpy(newstack, compare_stack_init,
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sizeof(struct compare_item) * COMPARE_STACK_INIT_SIZE);
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} else {
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newstack =
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realloc(compare_stack, sizeof(struct compare_item) * newsize);
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if (newstack == NULL) compare_stack_overflow();
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}
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compare_stack = newstack;
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compare_stack_limit = newstack + newsize;
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return newstack + sp_offset;
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}
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/* Structural comparison */
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#define LESS -1
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#define EQUAL 0
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#define GREATER 1
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#define UNORDERED ((intnat)1 << (8 * sizeof(value) - 1))
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/* The return value of compare_val is as follows:
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> 0 v1 is greater than v2
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0 v1 is equal to v2
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< 0 and > UNORDERED v1 is less than v2
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UNORDERED v1 and v2 cannot be compared */
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static intnat compare_val(value v1, value v2, int total)
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{
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struct compare_item * sp;
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tag_t t1, t2;
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sp = compare_stack;
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while (1) {
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if (v1 == v2 && total) goto next_item;
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if (Is_long(v1)) {
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if (v1 == v2) goto next_item;
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if (Is_long(v2))
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return Long_val(v1) - Long_val(v2);
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/* Subtraction above cannot overflow and cannot result in UNORDERED */
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if (Is_in_value_area(v2)) {
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switch (Tag_val(v2)) {
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case Forward_tag:
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v2 = Forward_val(v2);
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continue;
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case Custom_tag: {
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int res;
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int (*compare)(value v1, value v2) = Custom_ops_val(v2)->compare_ext;
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if (compare == NULL) break; /* for backward compatibility */
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caml_compare_unordered = 0;
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res = compare(v1, v2);
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if (caml_compare_unordered && !total) return UNORDERED;
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if (res != 0) return res;
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goto next_item;
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}
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default: /*fallthrough*/;
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}
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}
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return LESS; /* v1 long < v2 block */
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}
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if (Is_long(v2)) {
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if (Is_in_value_area(v1)) {
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switch (Tag_val(v1)) {
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case Forward_tag:
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v1 = Forward_val(v1);
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continue;
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case Custom_tag: {
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int res;
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int (*compare)(value v1, value v2) = Custom_ops_val(v1)->compare_ext;
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if (compare == NULL) break; /* for backward compatibility */
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caml_compare_unordered = 0;
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res = compare(v1, v2);
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if (caml_compare_unordered && !total) return UNORDERED;
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if (res != 0) return res;
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goto next_item;
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}
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default: /*fallthrough*/;
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}
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}
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return GREATER; /* v1 block > v2 long */
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}
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/* If one of the objects is outside the heap (but is not an atom),
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use address comparison. Since both addresses are 2-aligned,
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shift lsb off to avoid overflow in subtraction. */
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if (! Is_in_value_area(v1) || ! Is_in_value_area(v2)) {
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if (v1 == v2) goto next_item;
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return (v1 >> 1) - (v2 >> 1);
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/* Subtraction above cannot result in UNORDERED */
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}
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t1 = Tag_val(v1);
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t2 = Tag_val(v2);
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if (t1 == Forward_tag) { v1 = Forward_val (v1); continue; }
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if (t2 == Forward_tag) { v2 = Forward_val (v2); continue; }
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if (t1 != t2) return (intnat)t1 - (intnat)t2;
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switch(t1) {
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case String_tag: {
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mlsize_t len1, len2;
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int res;
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if (v1 == v2) break;
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len1 = caml_string_length(v1);
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len2 = caml_string_length(v2);
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res = memcmp(String_val(v1), String_val(v2), len1 <= len2 ? len1 : len2);
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if (res < 0) return LESS;
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if (res > 0) return GREATER;
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if (len1 != len2) return len1 - len2;
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break;
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}
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case Double_tag: {
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double d1 = Double_val(v1);
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double d2 = Double_val(v2);
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if (d1 < d2) return LESS;
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if (d1 > d2) return GREATER;
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if (d1 != d2) {
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if (! total) return UNORDERED;
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/* One or both of d1 and d2 is NaN. Order according to the
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convention NaN = NaN and NaN < f for all other floats f. */
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if (d1 == d1) return GREATER; /* d1 is not NaN, d2 is NaN */
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if (d2 == d2) return LESS; /* d2 is not NaN, d1 is NaN */
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/* d1 and d2 are both NaN, thus equal: continue comparison */
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}
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break;
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}
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case Double_array_tag: {
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mlsize_t sz1 = Wosize_val(v1) / Double_wosize;
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mlsize_t sz2 = Wosize_val(v2) / Double_wosize;
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mlsize_t i;
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if (sz1 != sz2) return sz1 - sz2;
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for (i = 0; i < sz1; i++) {
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double d1 = Double_field(v1, i);
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double d2 = Double_field(v2, i);
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if (d1 < d2) return LESS;
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if (d1 > d2) return GREATER;
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if (d1 != d2) {
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if (! total) return UNORDERED;
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/* See comment for Double_tag case */
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if (d1 == d1) return GREATER;
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if (d2 == d2) return LESS;
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}
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}
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break;
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}
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case Abstract_tag:
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compare_free_stack();
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caml_invalid_argument("compare: abstract value");
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case Closure_tag:
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case Infix_tag:
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compare_free_stack();
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caml_invalid_argument("compare: functional value");
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case Object_tag: {
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intnat oid1 = Oid_val(v1);
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intnat oid2 = Oid_val(v2);
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if (oid1 != oid2) return oid1 - oid2;
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break;
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}
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case Custom_tag: {
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int res;
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int (*compare)(value v1, value v2) = Custom_ops_val(v1)->compare;
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/* Hardening against comparisons between different types */
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if (compare != Custom_ops_val(v2)->compare) {
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return strcmp(Custom_ops_val(v1)->identifier,
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Custom_ops_val(v2)->identifier) < 0
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? LESS : GREATER;
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}
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if (compare == NULL) {
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compare_free_stack();
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caml_invalid_argument("compare: abstract value");
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}
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caml_compare_unordered = 0;
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res = compare(v1, v2);
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if (caml_compare_unordered && !total) return UNORDERED;
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if (res != 0) return res;
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break;
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}
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default: {
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mlsize_t sz1 = Wosize_val(v1);
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mlsize_t sz2 = Wosize_val(v2);
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/* Compare sizes first for speed */
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if (sz1 != sz2) return sz1 - sz2;
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if (sz1 == 0) break;
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/* Remember that we still have to compare fields 1 ... sz - 1 */
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if (sz1 > 1) {
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sp++;
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if (sp >= compare_stack_limit) sp = compare_resize_stack(sp);
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sp->v1 = &Field(v1, 1);
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sp->v2 = &Field(v2, 1);
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sp->count = sz1 - 1;
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}
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/* Continue comparison with first field */
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v1 = Field(v1, 0);
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v2 = Field(v2, 0);
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continue;
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}
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}
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next_item:
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/* Pop one more item to compare, if any */
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if (sp == compare_stack) return EQUAL; /* we're done */
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v1 = *((sp->v1)++);
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v2 = *((sp->v2)++);
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if (--(sp->count) == 0) sp--;
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}
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}
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CAMLprim value caml_compare(value v1, value v2)
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{
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intnat res = compare_val(v1, v2, 1);
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/* Free stack if needed */
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if (compare_stack != compare_stack_init) compare_free_stack();
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if (res < 0)
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return Val_int(LESS);
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else if (res > 0)
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return Val_int(GREATER);
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else
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return Val_int(EQUAL);
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}
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CAMLprim value caml_equal(value v1, value v2)
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{
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intnat res = compare_val(v1, v2, 0);
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if (compare_stack != compare_stack_init) compare_free_stack();
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return Val_int(res == 0);
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}
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CAMLprim value caml_notequal(value v1, value v2)
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{
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intnat res = compare_val(v1, v2, 0);
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if (compare_stack != compare_stack_init) compare_free_stack();
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return Val_int(res != 0);
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}
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CAMLprim value caml_lessthan(value v1, value v2)
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{
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intnat res = compare_val(v1, v2, 0);
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if (compare_stack != compare_stack_init) compare_free_stack();
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return Val_int(res < 0 && res != UNORDERED);
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}
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CAMLprim value caml_lessequal(value v1, value v2)
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{
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intnat res = compare_val(v1, v2, 0);
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if (compare_stack != compare_stack_init) compare_free_stack();
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return Val_int(res <= 0 && res != UNORDERED);
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}
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CAMLprim value caml_greaterthan(value v1, value v2)
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{
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intnat res = compare_val(v1, v2, 0);
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if (compare_stack != compare_stack_init) compare_free_stack();
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return Val_int(res > 0);
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}
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CAMLprim value caml_greaterequal(value v1, value v2)
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{
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intnat res = compare_val(v1, v2, 0);
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if (compare_stack != compare_stack_init) compare_free_stack();
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return Val_int(res >= 0);
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}
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