360 lines
11 KiB
C++
360 lines
11 KiB
C++
/* Provides high-level routines to manipulate the keywork list
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structures the code generation output.
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Copyright (C) 1989-1998, 2000 Free Software Foundation, Inc.
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written by Douglas C. Schmidt (schmidt@ics.uci.edu)
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This file is part of GNU GPERF.
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GNU GPERF is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 1, or (at your option)
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any later version.
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GNU GPERF is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GNU GPERF; see the file COPYING. If not, write to the Free
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Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111, USA. */
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#include <stdio.h>
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#include <stdlib.h> /* declares rand(), srand() */
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#include <time.h> /* declares time() */
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#include "options.h"
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#include "gen-perf.h"
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#include "trace.h"
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/* Efficiently returns the least power of two greater than or equal to X! */
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#define POW(X) ((!X)?1:(X-=1,X|=X>>1,X|=X>>2,X|=X>>4,X|=X>>8,X|=X>>16,(++X)))
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/* Reads input keys, possibly applies the reordering heuristic, sets the
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maximum associated value size (rounded up to the nearest power of 2),
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may initialize the associated values array, and determines the maximum
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hash table size. Note: using the random numbers is often helpful,
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though not as deterministic, of course! */
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Gen_Perf::Gen_Perf (void)
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{
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T (Trace t ("Gen_Perf::Gen_Perf");)
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int asso_value_max;
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int non_linked_length;
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Key_List::read_keys ();
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if (option[ORDER])
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reorder ();
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asso_value_max = option.get_asso_max ();
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non_linked_length = Key_List::keyword_list_length ();
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num_done = 1;
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fewest_collisions = 0;
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if (asso_value_max == 0)
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asso_value_max = non_linked_length;
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else if (asso_value_max > 0)
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asso_value_max *= non_linked_length;
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else /* if (asso_value_max < 0) */
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asso_value_max = non_linked_length / -asso_value_max;
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option.set_asso_max (POW (asso_value_max));
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if (option[RANDOM])
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{
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srand ((long) time (0));
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for (int i = 0; i < ALPHA_SIZE; i++)
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asso_values[i] = (rand () & asso_value_max - 1);
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}
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else
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{
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int asso_value = option.initial_value ();
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if (asso_value) /* Initialize array if user requests non-zero default. */
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for (int i = ALPHA_SIZE - 1; i >= 0; i--)
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asso_values[i] = asso_value & option.get_asso_max () - 1;
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}
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max_hash_value = Key_List::max_key_length () + option.get_asso_max () *
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option.get_max_keysig_size ();
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if (option[DEBUG])
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fprintf (stderr, "total non-linked keys = %d\nmaximum associated value is %d"
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"\nmaximum size of generated hash table is %d\n",
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non_linked_length, asso_value_max, max_hash_value);
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}
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/* Merge two disjoint hash key multisets to form the ordered disjoint union of the sets.
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(In a multiset, an element can occur multiple times.)
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Precondition: both set_1 and set_2 must be ordered. Returns the length
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of the combined set. */
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inline int
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Gen_Perf::compute_disjoint_union (const char *set_1, int size_1, const char *set_2, int size_2, char *set_3)
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{
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T (Trace t ("Gen_Perf::compute_disjoint_union");)
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char *base = set_3;
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while (size_1 > 0 && size_2 > 0)
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if (*set_1 == *set_2)
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set_1++, size_1--, set_2++, size_2--;
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else
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{
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char next;
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if (*set_1 < *set_2)
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next = *set_1++, size_1--;
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else
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next = *set_2++, size_2--;
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if (set_3 == base || next != set_3[-1])
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*set_3++ = next;
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}
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while (size_1 > 0)
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{
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char next;
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next = *set_1++, size_1--;
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if (set_3 == base || next != set_3[-1])
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*set_3++ = next;
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}
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while (size_2 > 0)
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{
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char next;
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next = *set_2++, size_2--;
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if (set_3 == base || next != set_3[-1])
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*set_3++ = next;
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}
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return set_3 - base;
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}
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/* Sort the UNION_SET in increasing frequency of occurrence.
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This speeds up later processing since we may assume the resulting
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set (Set_3, in this case), is ordered. Uses insertion sort, since
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the UNION_SET is typically short. */
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inline void
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Gen_Perf::sort_set (char *union_set, int len)
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{
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T (Trace t ("Gen_Perf::sort_set");)
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int i, j;
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for (i = 0, j = len - 1; i < j; i++)
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{
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int curr;
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char tmp;
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for (curr = i + 1, tmp = union_set[curr];
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curr > 0 && occurrences[(unsigned char)tmp] < occurrences[(unsigned char)(union_set[curr-1])];
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curr--)
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union_set[curr] = union_set[curr - 1];
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union_set[curr] = tmp;
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}
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}
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/* Generate a key set's hash value. */
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inline int
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Gen_Perf::hash (List_Node *key_node)
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{
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T (Trace t ("Gen_Perf::hash");)
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int sum = option[NOLENGTH] ? 0 : key_node->key_length;
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const char *p = key_node->char_set;
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int i = key_node->char_set_length;
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for (; i > 0; p++, i--)
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sum += asso_values[(unsigned char)(*p)];
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return key_node->hash_value = sum;
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}
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/* Find out how character value change affects successfully hashed items.
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Returns FALSE if no other hash values are affected, else returns TRUE.
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Note that because Option.Get_Asso_Max is a power of two we can guarantee
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that all legal Asso_Values are visited without repetition since
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Option.Get_Jump was forced to be an odd value! */
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inline int
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Gen_Perf::affects_prev (char c, List_Node *curr)
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{
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T (Trace t ("Gen_Perf::affects_prev");)
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int original_char = asso_values[(unsigned char)c];
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int total_iterations = !option[FAST]
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? option.get_asso_max () : option.get_iterations () ? option.get_iterations () : keyword_list_length ();
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/* Try all legal associated values. */
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for (int i = total_iterations - 1; i >= 0; i--)
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{
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int collisions = 0;
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asso_values[(unsigned char)c] =
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(asso_values[(unsigned char)c] + (option.get_jump () ? option.get_jump () : rand ()))
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& (option.get_asso_max () - 1);
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/* Iteration Number array is a win, O(1) intialization time! */
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reset ();
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/* See how this asso_value change affects previous keywords. If
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it does better than before we'll take it! */
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for (List_Node *ptr = head;
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!Bool_Array::find (hash (ptr)) || ++collisions < fewest_collisions;
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ptr = ptr->next)
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if (ptr == curr)
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{
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fewest_collisions = collisions;
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if (option[DEBUG])
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fprintf (stderr, "- resolved after %d iterations", total_iterations - i);
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return 0;
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}
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}
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/* Restore original values, no more tries. */
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asso_values[(unsigned char)c] = original_char;
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/* If we're this far it's time to try the next character.... */
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return 1;
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}
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/* Change a character value, try least-used characters first. */
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void
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Gen_Perf::change (List_Node *prior, List_Node *curr)
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{
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T (Trace t ("Gen_Perf::change");)
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static char *union_set;
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int union_set_length;
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if (!union_set)
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union_set = new char [2 * option.get_max_keysig_size ()];
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if (option[DEBUG])
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{
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fprintf (stderr, "collision on keyword #%d, prior = \"%.*s\", curr = \"%.*s\" hash = %d\n",
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num_done,
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prior->key_length, prior->key,
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curr->key_length, curr->key,
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curr->hash_value);
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fflush (stderr);
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}
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union_set_length = compute_disjoint_union (prior->char_set, prior->char_set_length, curr->char_set, curr->char_set_length, union_set);
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sort_set (union_set, union_set_length);
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/* Try changing some values, if change doesn't alter other values continue normal action. */
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fewest_collisions++;
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const char *p = union_set;
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int i = union_set_length;
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for (; i > 0; p++, i--)
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if (!affects_prev (*p, curr))
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{
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if (option[DEBUG])
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{
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fprintf (stderr, " by changing asso_value['%c'] (char #%d) to %d\n",
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*p, p - union_set + 1, asso_values[(unsigned char)(*p)]);
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fflush (stderr);
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}
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return; /* Good, doesn't affect previous hash values, we'll take it. */
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}
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for (List_Node *ptr = head; ptr != curr; ptr = ptr->next)
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hash (ptr);
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hash (curr);
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if (option[DEBUG])
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{
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fprintf (stderr, "** collision not resolved after %d iterations, %d duplicates remain, continuing...\n",
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!option[FAST] ? option.get_asso_max () : option.get_iterations () ? option.get_iterations () : keyword_list_length (),
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fewest_collisions + total_duplicates);
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fflush (stderr);
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}
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}
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/* Does the hard stuff....
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Initializes the Iteration Number array, and attempts to find a perfect
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function that will hash all the key words without getting any
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duplications. This is made much easier since we aren't attempting
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to generate *minimum* functions, only perfect ones.
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If we can't generate a perfect function in one pass *and* the user
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hasn't enabled the DUP option, we'll inform the user to try the
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randomization option, use -D, or choose alternative key positions.
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The alternatives (e.g., back-tracking) are too time-consuming, i.e,
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exponential in the number of keys. */
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int
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Gen_Perf::operator() (void)
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{
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T (Trace t ("Gen_Perf::operator()");)
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#if LARGE_STACK_ARRAYS
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STORAGE_TYPE buffer[max_hash_value + 1];
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#else
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// Note: we don't use new, because that invokes a custom operator new.
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STORAGE_TYPE *buffer
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= (STORAGE_TYPE*) malloc (sizeof(STORAGE_TYPE) * (max_hash_value + 1));
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if (buffer == NULL)
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abort ();
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#endif
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Bool_Array::init (buffer, max_hash_value + 1);
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List_Node *curr;
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for (curr = head; curr; curr = curr->next)
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{
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hash (curr);
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for (List_Node *ptr = head; ptr != curr; ptr = ptr->next)
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if (ptr->hash_value == curr->hash_value)
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{
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change (ptr, curr);
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break;
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}
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num_done++;
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}
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/* Make one final check, just to make sure nothing weird happened.... */
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Bool_Array::reset ();
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for (curr = head; curr; curr = curr->next)
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if (Bool_Array::find (hash (curr)))
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if (option[DUP]) /* Keep track of this number... */
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total_duplicates++;
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else /* Yow, big problems. we're outta here! */
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{
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fprintf (stderr, "\nInternal error, duplicate value %d:\n"
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"try options -D or -r, or use new key positions.\n\n", hash (curr));
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#if !LARGE_STACK_ARRAYS
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free ((char *) buffer);
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#endif
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return 1;
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}
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/* Sorts the key word list by hash value, and then outputs the list.
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The generated hash table code is only output if the early stage of
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processing turned out O.K. */
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sort ();
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output ();
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#if !LARGE_STACK_ARRAYS
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free ((char *) buffer);
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#endif
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return 0;
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}
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/* Prints out some diagnostics upon completion. */
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Gen_Perf::~Gen_Perf (void)
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{
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T (Trace t ("Gen_Perf::~Gen_Perf");)
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if (option[DEBUG])
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{
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fprintf (stderr, "\ndumping occurrence and associated values tables\n");
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for (int i = 0; i < ALPHA_SIZE; i++)
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if (occurrences[i])
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fprintf (stderr, "asso_values[%c] = %6d, occurrences[%c] = %6d\n",
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i, asso_values[i], i, occurrences[i]);
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fprintf (stderr, "end table dumping\n");
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}
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}
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