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6bf0bc842b
Some data types under adt/ have separate header files, but most simple
ones do not, and their public functions are defined in builtins.h. As
the patches improving geometric types will require making additional
functions public, this seems like a good opportunity to create a header
for floats types.
Commit 1acf757255
made _cmp functions public to solve NaN issues locally
for GiST indexes. This patch reworks it in favour of a more widely
applicable API. The API uses inline functions, as they are easier to
use compared to macros, and avoid double-evaluation hazards.
Author: Emre Hasegeli
Reviewed-by: Kyotaro Horiguchi
Discussion: https://www.postgresql.org/message-id/CAE2gYzxF7-5djV6-cEvqQu-fNsnt%3DEqbOURx7ZDg%2BVv6ZMTWbg%40mail.gmail.com
270 lines
5.3 KiB
Plaintext
270 lines
5.3 KiB
Plaintext
%{
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/* contrib/cube/cubeparse.y */
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/* NdBox = [(lowerleft),(upperright)] */
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/* [(xLL(1)...xLL(N)),(xUR(1)...xUR(n))] */
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#include "postgres.h"
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#include "cubedata.h"
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#include "utils/float.h"
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/* All grammar constructs return strings */
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#define YYSTYPE char *
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/*
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* Bison doesn't allocate anything that needs to live across parser calls,
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* so we can easily have it use palloc instead of malloc. This prevents
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* memory leaks if we error out during parsing. Note this only works with
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* bison >= 2.0. However, in bison 1.875 the default is to use alloca()
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* if possible, so there's not really much problem anyhow, at least if
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* you're building with gcc.
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*/
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#define YYMALLOC palloc
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#define YYFREE pfree
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static char *scanbuf;
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static int scanbuflen;
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static int item_count(const char *s, char delim);
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static NDBOX *write_box(int dim, char *str1, char *str2);
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static NDBOX *write_point_as_box(int dim, char *str);
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%}
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/* BISON Declarations */
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%parse-param {NDBOX **result}
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%expect 0
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%name-prefix="cube_yy"
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%token CUBEFLOAT O_PAREN C_PAREN O_BRACKET C_BRACKET COMMA
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%start box
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/* Grammar follows */
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%%
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box: O_BRACKET paren_list COMMA paren_list C_BRACKET
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{
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int dim;
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dim = item_count($2, ',');
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if (item_count($4, ',') != dim)
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{
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ereport(ERROR,
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(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
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errmsg("invalid input syntax for cube"),
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errdetail("Different point dimensions in (%s) and (%s).",
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$2, $4)));
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YYABORT;
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}
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if (dim > CUBE_MAX_DIM)
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{
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ereport(ERROR,
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(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
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errmsg("invalid input syntax for cube"),
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errdetail("A cube cannot have more than %d dimensions.",
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CUBE_MAX_DIM)));
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YYABORT;
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}
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*result = write_box( dim, $2, $4 );
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}
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| paren_list COMMA paren_list
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{
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int dim;
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dim = item_count($1, ',');
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if (item_count($3, ',') != dim)
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{
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ereport(ERROR,
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(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
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errmsg("invalid input syntax for cube"),
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errdetail("Different point dimensions in (%s) and (%s).",
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$1, $3)));
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YYABORT;
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}
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if (dim > CUBE_MAX_DIM)
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{
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ereport(ERROR,
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(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
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errmsg("invalid input syntax for cube"),
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errdetail("A cube cannot have more than %d dimensions.",
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CUBE_MAX_DIM)));
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YYABORT;
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}
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*result = write_box( dim, $1, $3 );
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}
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| paren_list
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{
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int dim;
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dim = item_count($1, ',');
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if (dim > CUBE_MAX_DIM)
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{
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ereport(ERROR,
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(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
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errmsg("invalid input syntax for cube"),
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errdetail("A cube cannot have more than %d dimensions.",
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CUBE_MAX_DIM)));
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YYABORT;
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}
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*result = write_point_as_box(dim, $1);
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}
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{
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int dim;
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dim = item_count($1, ',');
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if (dim > CUBE_MAX_DIM)
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{
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ereport(ERROR,
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(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
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errmsg("invalid input syntax for cube"),
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errdetail("A cube cannot have more than %d dimensions.",
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CUBE_MAX_DIM)));
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YYABORT;
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}
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*result = write_point_as_box(dim, $1);
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}
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;
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paren_list: O_PAREN list C_PAREN
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{
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$$ = $2;
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}
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| O_PAREN C_PAREN
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{
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$$ = pstrdup("");
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}
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;
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list: CUBEFLOAT
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{
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/* alloc enough space to be sure whole list will fit */
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$$ = palloc(scanbuflen + 1);
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strcpy($$, $1);
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}
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| list COMMA CUBEFLOAT
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{
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$$ = $1;
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strcat($$, ",");
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strcat($$, $3);
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}
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;
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%%
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/* This assumes the string has been normalized by productions above */
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static int
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item_count(const char *s, char delim)
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{
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int nitems = 0;
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if (s[0] != '\0')
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{
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nitems++;
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while ((s = strchr(s, delim)) != NULL)
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{
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nitems++;
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s++;
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}
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}
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return nitems;
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}
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static NDBOX *
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write_box(int dim, char *str1, char *str2)
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{
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NDBOX *bp;
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char *s;
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char *endptr;
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int i;
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int size = CUBE_SIZE(dim);
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bool point = true;
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bp = palloc0(size);
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SET_VARSIZE(bp, size);
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SET_DIM(bp, dim);
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s = str1;
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i = 0;
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if (dim > 0)
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bp->x[i++] = float8in_internal(s, &endptr, "cube", str1);
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while ((s = strchr(s, ',')) != NULL)
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{
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s++;
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bp->x[i++] = float8in_internal(s, &endptr, "cube", str1);
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}
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Assert(i == dim);
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s = str2;
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if (dim > 0)
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{
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bp->x[i] = float8in_internal(s, &endptr, "cube", str2);
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/* code this way to do right thing with NaN */
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point &= (bp->x[i] == bp->x[0]);
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i++;
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}
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while ((s = strchr(s, ',')) != NULL)
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{
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s++;
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bp->x[i] = float8in_internal(s, &endptr, "cube", str2);
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point &= (bp->x[i] == bp->x[i - dim]);
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i++;
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}
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Assert(i == dim * 2);
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if (point)
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{
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/*
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* The value turned out to be a point, ie. all the upper-right
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* coordinates were equal to the lower-left coordinates. Resize the
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* cube we constructed. Note: we don't bother to repalloc() it
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* smaller, as it's unlikely that the tiny amount of memory freed
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* that way would be useful, and the output is always short-lived.
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*/
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size = POINT_SIZE(dim);
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SET_VARSIZE(bp, size);
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SET_POINT_BIT(bp);
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}
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return bp;
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}
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static NDBOX *
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write_point_as_box(int dim, char *str)
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{
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NDBOX *bp;
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int i,
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size;
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char *s;
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char *endptr;
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size = POINT_SIZE(dim);
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bp = palloc0(size);
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SET_VARSIZE(bp, size);
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SET_DIM(bp, dim);
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SET_POINT_BIT(bp);
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s = str;
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i = 0;
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if (dim > 0)
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bp->x[i++] = float8in_internal(s, &endptr, "cube", str);
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while ((s = strchr(s, ',')) != NULL)
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{
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s++;
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bp->x[i++] = float8in_internal(s, &endptr, "cube", str);
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}
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Assert(i == dim);
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return bp;
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}
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#include "cubescan.c"
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