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29275b1d17
Reported-by: Michael Paquier Discussion: https://postgr.es/m/ZZKTDPxBBMt3C0J9@paquier.xyz Backpatch-through: 12
572 lines
15 KiB
C
572 lines
15 KiB
C
/*
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* Daitch-Mokotoff Soundex
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*
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* Copyright (c) 2023-2024, PostgreSQL Global Development Group
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*
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* This module was originally sponsored by Finance Norway /
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* Trafikkforsikringsforeningen, and implemented by Dag Lem <dag@nimrod.no>
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*
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* The implementation of the Daitch-Mokotoff Soundex System aims at correctness
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* and high performance, and can be summarized as follows:
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*
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* - The processing of each phoneme is initiated by an O(1) table lookup.
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* - For phonemes containing more than one character, a coding tree is traversed
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* to process the complete phoneme.
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* - The (alternate) soundex codes are produced digit by digit in-place in
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* another tree structure.
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*
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* References:
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*
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* https://www.avotaynu.com/soundex.htm
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* https://www.jewishgen.org/InfoFiles/Soundex.html
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* https://familypedia.fandom.com/wiki/Daitch-Mokotoff_Soundex
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* https://stevemorse.org/census/soundex.html (dmlat.php, dmsoundex.php)
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* https://github.com/apache/commons-codec/ (dmrules.txt, DaitchMokotoffSoundex.java)
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* https://metacpan.org/pod/Text::Phonetic (DaitchMokotoff.pm)
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*
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* A few notes on other implementations:
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*
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* - All other known implementations have the same unofficial rules for "UE",
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* these are also adapted by this implementation (0, 1, NC).
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* - The only other known implementation which is capable of generating all
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* correct soundex codes in all cases is the JOS Soundex Calculator at
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* https://www.jewishgen.org/jos/jossound.htm
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* - "J" is considered (only) a vowel in dmlat.php
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* - The official rules for "RS" are commented out in dmlat.php
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* - Identical code digits for adjacent letters are not collapsed correctly in
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* dmsoundex.php when double digit codes are involved. E.g. "BESST" yields
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* 744300 instead of 743000 as for "BEST".
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* - "J" is considered (only) a consonant in DaitchMokotoffSoundex.java
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* - "Y" is not considered a vowel in DaitchMokotoffSoundex.java
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*/
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#include "postgres.h"
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#include "catalog/pg_type.h"
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#include "mb/pg_wchar.h"
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#include "utils/array.h"
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#include "utils/builtins.h"
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#include "utils/memutils.h"
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/*
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* The soundex coding chart table is adapted from
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* https://www.jewishgen.org/InfoFiles/Soundex.html
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* See daitch_mokotoff_header.pl for details.
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*/
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/* Generated coding chart table */
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#include "daitch_mokotoff.h"
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#define DM_CODE_DIGITS 6
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/* Node in soundex code tree */
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typedef struct dm_node
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{
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int soundex_length; /* Length of generated soundex code */
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char soundex[DM_CODE_DIGITS]; /* Soundex code */
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int is_leaf; /* Candidate for complete soundex code */
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int last_update; /* Letter number for last update of node */
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char code_digit; /* Last code digit, 0 - 9 */
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/*
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* One or two alternate code digits leading to this node. If there are two
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* digits, one of them is always an 'X'. Repeated code digits and 'X' lead
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* back to the same node.
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*/
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char prev_code_digits[2];
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/* One or two alternate code digits moving forward. */
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char next_code_digits[2];
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/* ORed together code index(es) used to reach current node. */
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int prev_code_index;
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int next_code_index;
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/* Possible nodes branching out from this node - digits 0-9. */
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struct dm_node *children[10];
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/* Next node in linked list. Alternating index for each iteration. */
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struct dm_node *next[2];
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} dm_node;
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/* Template for new node in soundex code tree. */
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static const dm_node start_node = {
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.soundex_length = 0,
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.soundex = "000000", /* Six digits */
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.is_leaf = 0,
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.last_update = 0,
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.code_digit = '\0',
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.prev_code_digits = {'\0', '\0'},
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.next_code_digits = {'\0', '\0'},
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.prev_code_index = 0,
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.next_code_index = 0,
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.children = {NULL},
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.next = {NULL}
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};
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/* Dummy soundex codes at end of input. */
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static const dm_codes end_codes[2] =
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{
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{
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"X", "X", "X"
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}
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};
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/* Mapping from ISO8859-1 to upper-case ASCII, covering the range 0x60..0xFF. */
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static const char iso8859_1_to_ascii_upper[] =
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"`ABCDEFGHIJKLMNOPQRSTUVWXYZ{|}~ ! ?AAAAAAECEEEEIIIIDNOOOOO*OUUUUYDSAAAAAAECEEEEIIIIDNOOOOO/OUUUUYDY";
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/* Internal C implementation */
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static bool daitch_mokotoff_coding(const char *word, ArrayBuildState *soundex);
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PG_FUNCTION_INFO_V1(daitch_mokotoff);
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Datum
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daitch_mokotoff(PG_FUNCTION_ARGS)
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{
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text *arg = PG_GETARG_TEXT_PP(0);
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Datum retval;
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char *string;
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ArrayBuildState *soundex;
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MemoryContext old_ctx,
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tmp_ctx;
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/* Work in a temporary context to simplify cleanup. */
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tmp_ctx = AllocSetContextCreate(CurrentMemoryContext,
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"daitch_mokotoff temporary context",
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ALLOCSET_DEFAULT_SIZES);
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old_ctx = MemoryContextSwitchTo(tmp_ctx);
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/* We must convert the string to UTF-8 if it isn't already. */
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string = pg_server_to_any(text_to_cstring(arg), VARSIZE_ANY_EXHDR(arg),
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PG_UTF8);
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/* The result is built in this ArrayBuildState. */
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soundex = initArrayResult(TEXTOID, tmp_ctx, false);
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if (!daitch_mokotoff_coding(string, soundex))
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{
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/* No encodable characters in input */
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MemoryContextSwitchTo(old_ctx);
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MemoryContextDelete(tmp_ctx);
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PG_RETURN_NULL();
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}
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retval = makeArrayResult(soundex, old_ctx);
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MemoryContextSwitchTo(old_ctx);
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MemoryContextDelete(tmp_ctx);
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PG_RETURN_DATUM(retval);
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}
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/* Initialize soundex code tree node for next code digit. */
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static void
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initialize_node(dm_node *node, int last_update)
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{
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if (node->last_update < last_update)
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{
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node->prev_code_digits[0] = node->next_code_digits[0];
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node->prev_code_digits[1] = node->next_code_digits[1];
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node->next_code_digits[0] = '\0';
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node->next_code_digits[1] = '\0';
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node->prev_code_index = node->next_code_index;
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node->next_code_index = 0;
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node->is_leaf = 0;
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node->last_update = last_update;
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}
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}
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/* Update soundex code tree node with next code digit. */
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static void
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add_next_code_digit(dm_node *node, int code_index, char code_digit)
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{
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/* OR in index 1 or 2. */
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node->next_code_index |= code_index;
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if (!node->next_code_digits[0])
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node->next_code_digits[0] = code_digit;
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else if (node->next_code_digits[0] != code_digit)
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node->next_code_digits[1] = code_digit;
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}
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/* Mark soundex code tree node as leaf. */
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static void
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set_leaf(dm_node *first_node[2], dm_node *last_node[2],
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dm_node *node, int ix_node)
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{
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if (!node->is_leaf)
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{
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node->is_leaf = 1;
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if (first_node[ix_node] == NULL)
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first_node[ix_node] = node;
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else
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last_node[ix_node]->next[ix_node] = node;
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last_node[ix_node] = node;
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node->next[ix_node] = NULL;
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}
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}
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/* Find next node corresponding to code digit, or create a new node. */
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static dm_node *
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find_or_create_child_node(dm_node *parent, char code_digit,
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ArrayBuildState *soundex)
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{
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int i = code_digit - '0';
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dm_node **nodes = parent->children;
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dm_node *node = nodes[i];
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if (node)
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{
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/* Found existing child node. Skip completed nodes. */
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return node->soundex_length < DM_CODE_DIGITS ? node : NULL;
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}
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/* Create new child node. */
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node = palloc_object(dm_node);
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nodes[i] = node;
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*node = start_node;
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memcpy(node->soundex, parent->soundex, sizeof(parent->soundex));
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node->soundex_length = parent->soundex_length;
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node->soundex[node->soundex_length++] = code_digit;
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node->code_digit = code_digit;
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node->next_code_index = node->prev_code_index;
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if (node->soundex_length < DM_CODE_DIGITS)
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{
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return node;
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}
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else
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{
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/* Append completed soundex code to output array. */
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text *out = cstring_to_text_with_len(node->soundex,
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DM_CODE_DIGITS);
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accumArrayResult(soundex,
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PointerGetDatum(out),
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false,
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TEXTOID,
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CurrentMemoryContext);
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return NULL;
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}
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}
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/* Update node for next code digit(s). */
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static void
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update_node(dm_node *first_node[2], dm_node *last_node[2],
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dm_node *node, int ix_node,
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int letter_no, int prev_code_index, int next_code_index,
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const char *next_code_digits, int digit_no,
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ArrayBuildState *soundex)
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{
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int i;
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char next_code_digit = next_code_digits[digit_no];
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int num_dirty_nodes = 0;
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dm_node *dirty_nodes[2];
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initialize_node(node, letter_no);
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if (node->prev_code_index && !(node->prev_code_index & prev_code_index))
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{
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/*
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* If the sound (vowel / consonant) of this letter encoding doesn't
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* correspond to the coding index of the previous letter, we skip this
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* letter encoding. Note that currently, only "J" can be either a
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* vowel or a consonant.
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*/
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return;
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}
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if (next_code_digit == 'X' ||
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(digit_no == 0 &&
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(node->prev_code_digits[0] == next_code_digit ||
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node->prev_code_digits[1] == next_code_digit)))
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{
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/* The code digit is the same as one of the previous (i.e. not added). */
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dirty_nodes[num_dirty_nodes++] = node;
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}
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if (next_code_digit != 'X' &&
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(digit_no > 0 ||
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node->prev_code_digits[0] != next_code_digit ||
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node->prev_code_digits[1]))
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{
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/* The code digit is different from one of the previous (i.e. added). */
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node = find_or_create_child_node(node, next_code_digit, soundex);
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if (node)
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{
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initialize_node(node, letter_no);
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dirty_nodes[num_dirty_nodes++] = node;
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}
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}
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for (i = 0; i < num_dirty_nodes; i++)
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{
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/* Add code digit leading to the current node. */
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add_next_code_digit(dirty_nodes[i], next_code_index, next_code_digit);
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if (next_code_digits[++digit_no])
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{
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update_node(first_node, last_node, dirty_nodes[i], ix_node,
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letter_no, prev_code_index, next_code_index,
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next_code_digits, digit_no,
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soundex);
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}
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else
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{
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/* Add incomplete leaf node to linked list. */
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set_leaf(first_node, last_node, dirty_nodes[i], ix_node);
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}
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}
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}
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/* Update soundex tree leaf nodes. */
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static void
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update_leaves(dm_node *first_node[2], int *ix_node, int letter_no,
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const dm_codes *codes, const dm_codes *next_codes,
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ArrayBuildState *soundex)
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{
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int i,
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j,
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code_index;
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dm_node *node,
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*last_node[2];
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const dm_code *code,
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*next_code;
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int ix_node_next = (*ix_node + 1) & 1; /* Alternating index: 0, 1 */
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/* Initialize for new linked list of leaves. */
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first_node[ix_node_next] = NULL;
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last_node[ix_node_next] = NULL;
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/* Process all nodes. */
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for (node = first_node[*ix_node]; node; node = node->next[*ix_node])
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{
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/* One or two alternate code sequences. */
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for (i = 0; i < 2 && (code = codes[i]) && code[0][0]; i++)
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{
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/* Coding for previous letter - before vowel: 1, all other: 2 */
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int prev_code_index = (code[0][0] > '1') + 1;
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/* One or two alternate next code sequences. */
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for (j = 0; j < 2 && (next_code = next_codes[j]) && next_code[0][0]; j++)
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{
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/* Determine which code to use. */
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if (letter_no == 0)
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{
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/* This is the first letter. */
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code_index = 0;
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}
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else if (next_code[0][0] <= '1')
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{
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/* The next letter is a vowel. */
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code_index = 1;
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}
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else
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{
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/* All other cases. */
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code_index = 2;
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}
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/* One or two sequential code digits. */
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update_node(first_node, last_node, node, ix_node_next,
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letter_no, prev_code_index, code_index,
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code[code_index], 0,
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soundex);
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}
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}
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}
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*ix_node = ix_node_next;
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}
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/*
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* Return next character, converted from UTF-8 to uppercase ASCII.
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* *ix is the current string index and is incremented by the character length.
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*/
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static char
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read_char(const unsigned char *str, int *ix)
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{
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/* Substitute character for skipped code points. */
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const char na = '\x1a';
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pg_wchar c;
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/* Decode UTF-8 character to ISO 10646 code point. */
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str += *ix;
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c = utf8_to_unicode(str);
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/* Advance *ix, but (for safety) not if we've reached end of string. */
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if (c)
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*ix += pg_utf_mblen(str);
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/* Convert. */
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if (c >= (unsigned char) '[' && c <= (unsigned char) ']')
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{
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/* ASCII characters [, \, and ] are reserved for conversions below. */
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return na;
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}
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else if (c < 0x60)
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{
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/* Other non-lowercase ASCII characters can be used as-is. */
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return (char) c;
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}
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else if (c < 0x100)
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{
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/* ISO-8859-1 code point; convert to upper-case ASCII via table. */
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return iso8859_1_to_ascii_upper[c - 0x60];
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}
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else
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{
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/* Conversion of non-ASCII characters in the coding chart. */
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switch (c)
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{
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case 0x0104: /* LATIN CAPITAL LETTER A WITH OGONEK */
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case 0x0105: /* LATIN SMALL LETTER A WITH OGONEK */
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return '[';
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case 0x0118: /* LATIN CAPITAL LETTER E WITH OGONEK */
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case 0x0119: /* LATIN SMALL LETTER E WITH OGONEK */
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return '\\';
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case 0x0162: /* LATIN CAPITAL LETTER T WITH CEDILLA */
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case 0x0163: /* LATIN SMALL LETTER T WITH CEDILLA */
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case 0x021A: /* LATIN CAPITAL LETTER T WITH COMMA BELOW */
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case 0x021B: /* LATIN SMALL LETTER T WITH COMMA BELOW */
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return ']';
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default:
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return na;
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}
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}
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}
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/* Read next ASCII character, skipping any characters not in [A-\]]. */
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static char
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read_valid_char(const char *str, int *ix)
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{
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char c;
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while ((c = read_char((const unsigned char *) str, ix)) != '\0')
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{
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if (c >= 'A' && c <= ']')
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break;
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}
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return c;
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}
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/* Return sound coding for "letter" (letter sequence) */
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static const dm_codes *
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read_letter(const char *str, int *ix)
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{
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char c,
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cmp;
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int i,
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j;
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const dm_letter *letters;
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const dm_codes *codes;
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/* First letter in sequence. */
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if ((c = read_valid_char(str, ix)) == '\0')
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return NULL;
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letters = &letter_[c - 'A'];
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codes = letters->codes;
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i = *ix;
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/* Any subsequent letters in sequence. */
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while ((letters = letters->letters) && (c = read_valid_char(str, &i)))
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{
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for (j = 0; (cmp = letters[j].letter); j++)
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{
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if (cmp == c)
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{
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/* Letter found. */
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letters = &letters[j];
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if (letters->codes)
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{
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/* Coding for letter sequence found. */
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codes = letters->codes;
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*ix = i;
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}
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break;
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}
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}
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if (!cmp)
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{
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/* The sequence of letters has no coding. */
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break;
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}
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}
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return codes;
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}
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/*
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* Generate all Daitch-Mokotoff soundex codes for word,
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* adding them to the "soundex" ArrayBuildState.
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* Returns false if string has no encodable characters, else true.
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*/
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static bool
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daitch_mokotoff_coding(const char *word, ArrayBuildState *soundex)
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{
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int i = 0;
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int letter_no = 0;
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int ix_node = 0;
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const dm_codes *codes,
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*next_codes;
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dm_node *first_node[2],
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*node;
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/* First letter. */
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if (!(codes = read_letter(word, &i)))
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{
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/* No encodable character in input. */
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return false;
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}
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/* Starting point. */
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first_node[ix_node] = palloc_object(dm_node);
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*first_node[ix_node] = start_node;
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|
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/*
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* Loop until either the word input is exhausted, or all generated soundex
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* codes are completed to six digits.
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*/
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while (codes && first_node[ix_node])
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{
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next_codes = read_letter(word, &i);
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|
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/* Update leaf nodes. */
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|
update_leaves(first_node, &ix_node, letter_no,
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codes, next_codes ? next_codes : end_codes,
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|
soundex);
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|
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codes = next_codes;
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letter_no++;
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}
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|
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/* Append all remaining (incomplete) soundex codes to output array. */
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for (node = first_node[ix_node]; node; node = node->next[ix_node])
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{
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text *out = cstring_to_text_with_len(node->soundex,
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DM_CODE_DIGITS);
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|
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|
accumArrayResult(soundex,
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|
PointerGetDatum(out),
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|
false,
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|
TEXTOID,
|
|
CurrentMemoryContext);
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|
}
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|
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|
return true;
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|
}
|