postgresql/contrib/cube/cube.c

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/******************************************************************************
$PostgreSQL: pgsql/contrib/cube/cube.c,v 1.37 2009/06/11 14:48:50 momjian Exp $
This file contains routines that can be bound to a Postgres backend and
called by the backend in the process of processing queries. The calling
format for these routines is dictated by Postgres architecture.
******************************************************************************/
#include "postgres.h"
#include <float.h>
#include <math.h>
#include "access/gist.h"
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#include "access/skey.h"
#include "lib/stringinfo.h"
#include "utils/array.h"
#include "utils/builtins.h"
#include "cubedata.h"
PG_MODULE_MAGIC;
/*
* Taken from the intarray contrib header
*/
#define ARRPTR(x) ( (double *) ARR_DATA_PTR(x) )
#define ARRNELEMS(x) ArrayGetNItems( ARR_NDIM(x), ARR_DIMS(x))
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extern int cube_yyparse();
extern void cube_yyerror(const char *message);
extern void cube_scanner_init(const char *str);
extern void cube_scanner_finish(void);
/*
** Input/Output routines
*/
PG_FUNCTION_INFO_V1(cube_in);
PG_FUNCTION_INFO_V1(cube);
PG_FUNCTION_INFO_V1(cube_a_f8_f8);
PG_FUNCTION_INFO_V1(cube_a_f8);
PG_FUNCTION_INFO_V1(cube_out);
PG_FUNCTION_INFO_V1(cube_f8);
PG_FUNCTION_INFO_V1(cube_f8_f8);
PG_FUNCTION_INFO_V1(cube_c_f8);
PG_FUNCTION_INFO_V1(cube_c_f8_f8);
PG_FUNCTION_INFO_V1(cube_dim);
PG_FUNCTION_INFO_V1(cube_ll_coord);
PG_FUNCTION_INFO_V1(cube_ur_coord);
PG_FUNCTION_INFO_V1(cube_subset);
Datum cube_in(PG_FUNCTION_ARGS);
Datum cube(PG_FUNCTION_ARGS);
Datum cube_a_f8_f8(PG_FUNCTION_ARGS);
Datum cube_a_f8(PG_FUNCTION_ARGS);
Datum cube_out(PG_FUNCTION_ARGS);
Datum cube_f8(PG_FUNCTION_ARGS);
Datum cube_f8_f8(PG_FUNCTION_ARGS);
Datum cube_c_f8(PG_FUNCTION_ARGS);
Datum cube_c_f8_f8(PG_FUNCTION_ARGS);
Datum cube_dim(PG_FUNCTION_ARGS);
Datum cube_ll_coord(PG_FUNCTION_ARGS);
Datum cube_ur_coord(PG_FUNCTION_ARGS);
Datum cube_subset(PG_FUNCTION_ARGS);
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/*
** GiST support methods
*/
PG_FUNCTION_INFO_V1(g_cube_consistent);
PG_FUNCTION_INFO_V1(g_cube_compress);
PG_FUNCTION_INFO_V1(g_cube_decompress);
PG_FUNCTION_INFO_V1(g_cube_penalty);
PG_FUNCTION_INFO_V1(g_cube_picksplit);
PG_FUNCTION_INFO_V1(g_cube_union);
PG_FUNCTION_INFO_V1(g_cube_same);
Datum g_cube_consistent(PG_FUNCTION_ARGS);
Datum g_cube_compress(PG_FUNCTION_ARGS);
Datum g_cube_decompress(PG_FUNCTION_ARGS);
Datum g_cube_penalty(PG_FUNCTION_ARGS);
Datum g_cube_picksplit(PG_FUNCTION_ARGS);
Datum g_cube_union(PG_FUNCTION_ARGS);
Datum g_cube_same(PG_FUNCTION_ARGS);
/*
** B-tree support functions
*/
PG_FUNCTION_INFO_V1(cube_eq);
PG_FUNCTION_INFO_V1(cube_ne);
PG_FUNCTION_INFO_V1(cube_lt);
PG_FUNCTION_INFO_V1(cube_gt);
PG_FUNCTION_INFO_V1(cube_le);
PG_FUNCTION_INFO_V1(cube_ge);
PG_FUNCTION_INFO_V1(cube_cmp);
Datum cube_eq(PG_FUNCTION_ARGS);
Datum cube_ne(PG_FUNCTION_ARGS);
Datum cube_lt(PG_FUNCTION_ARGS);
Datum cube_gt(PG_FUNCTION_ARGS);
Datum cube_le(PG_FUNCTION_ARGS);
Datum cube_ge(PG_FUNCTION_ARGS);
Datum cube_cmp(PG_FUNCTION_ARGS);
/*
** R-tree support functions
*/
PG_FUNCTION_INFO_V1(cube_contains);
PG_FUNCTION_INFO_V1(cube_contained);
PG_FUNCTION_INFO_V1(cube_overlap);
PG_FUNCTION_INFO_V1(cube_union);
PG_FUNCTION_INFO_V1(cube_inter);
PG_FUNCTION_INFO_V1(cube_size);
Datum cube_contains(PG_FUNCTION_ARGS);
Datum cube_contained(PG_FUNCTION_ARGS);
Datum cube_overlap(PG_FUNCTION_ARGS);
Datum cube_union(PG_FUNCTION_ARGS);
Datum cube_inter(PG_FUNCTION_ARGS);
Datum cube_size(PG_FUNCTION_ARGS);
/*
** miscellaneous
*/
PG_FUNCTION_INFO_V1(cube_distance);
PG_FUNCTION_INFO_V1(cube_is_point);
PG_FUNCTION_INFO_V1(cube_enlarge);
Datum cube_distance(PG_FUNCTION_ARGS);
Datum cube_is_point(PG_FUNCTION_ARGS);
Datum cube_enlarge(PG_FUNCTION_ARGS);
/*
** For internal use only
*/
int32 cube_cmp_v0(NDBOX *a, NDBOX *b);
bool cube_contains_v0(NDBOX *a, NDBOX *b);
bool cube_overlap_v0(NDBOX *a, NDBOX *b);
NDBOX *cube_union_v0(NDBOX *a, NDBOX *b);
void rt_cube_size(NDBOX *a, double *sz);
NDBOX *g_cube_binary_union(NDBOX *r1, NDBOX *r2, int *sizep);
bool g_cube_leaf_consistent(NDBOX *key, NDBOX *query, StrategyNumber strategy);
bool g_cube_internal_consistent(NDBOX *key, NDBOX *query, StrategyNumber strategy);
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/*
** Auxiliary funxtions
*/
static double distance_1D(double a1, double a2, double b1, double b2);
/*****************************************************************************
* Input/Output functions
*****************************************************************************/
/* NdBox = [(lowerleft),(upperright)] */
/* [(xLL(1)...xLL(N)),(xUR(1)...xUR(n))] */
Datum
cube_in(PG_FUNCTION_ARGS)
{
char *str = PG_GETARG_CSTRING(0);
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void *result;
cube_scanner_init(str);
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if (cube_yyparse(&result) != 0)
cube_yyerror("bogus input");
cube_scanner_finish();
PG_RETURN_NDBOX(result);
}
/*
** Allows the construction of a cube from 2 float[]'s
*/
Datum
cube_a_f8_f8(PG_FUNCTION_ARGS)
{
ArrayType *ur = PG_GETARG_ARRAYTYPE_P(0);
ArrayType *ll = PG_GETARG_ARRAYTYPE_P(1);
NDBOX *result;
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int i;
int dim;
int size;
double *dur,
*dll;
if (ARR_HASNULL(ur) || ARR_HASNULL(ll))
ereport(ERROR,
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(errcode(ERRCODE_ARRAY_ELEMENT_ERROR),
errmsg("cannot work with arrays containing NULLs")));
dim = ARRNELEMS(ur);
if (ARRNELEMS(ll) != dim)
ereport(ERROR,
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(errcode(ERRCODE_ARRAY_ELEMENT_ERROR),
errmsg("UR and LL arrays must be of same length")));
dur = ARRPTR(ur);
dll = ARRPTR(ll);
size = offsetof(NDBOX, x[0]) +sizeof(double) * 2 * dim;
result = (NDBOX *) palloc0(size);
SET_VARSIZE(result, size);
result->dim = dim;
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for (i = 0; i < dim; i++)
{
result->x[i] = dur[i];
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result->x[i + dim] = dll[i];
}
PG_RETURN_NDBOX(result);
}
/*
** Allows the construction of a zero-volume cube from a float[]
*/
Datum
cube_a_f8(PG_FUNCTION_ARGS)
{
ArrayType *ur = PG_GETARG_ARRAYTYPE_P(0);
NDBOX *result;
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int i;
int dim;
int size;
double *dur;
if (ARR_HASNULL(ur))
ereport(ERROR,
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(errcode(ERRCODE_ARRAY_ELEMENT_ERROR),
errmsg("cannot work with arrays containing NULLs")));
dim = ARRNELEMS(ur);
dur = ARRPTR(ur);
size = offsetof(NDBOX, x[0]) +sizeof(double) * 2 * dim;
result = (NDBOX *) palloc0(size);
SET_VARSIZE(result, size);
result->dim = dim;
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for (i = 0; i < dim; i++)
{
result->x[i] = dur[i];
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result->x[i + dim] = dur[i];
}
PG_RETURN_NDBOX(result);
}
Datum
cube_subset(PG_FUNCTION_ARGS)
{
NDBOX *c = PG_GETARG_NDBOX(0);
ArrayType *idx = PG_GETARG_ARRAYTYPE_P(1);
NDBOX *result;
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int size,
dim,
i;
int *dx;
if (ARR_HASNULL(idx))
ereport(ERROR,
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(errcode(ERRCODE_ARRAY_ELEMENT_ERROR),
errmsg("cannot work with arrays containing NULLs")));
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dx = (int4 *) ARR_DATA_PTR(idx);
dim = ARRNELEMS(idx);
size = offsetof(NDBOX, x[0]) +sizeof(double) * 2 * dim;
result = (NDBOX *) palloc0(size);
SET_VARSIZE(result, size);
result->dim = dim;
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for (i = 0; i < dim; i++)
{
if ((dx[i] <= 0) || (dx[i] > c->dim))
{
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pfree(result);
ereport(ERROR,
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(errcode(ERRCODE_ARRAY_ELEMENT_ERROR),
errmsg("Index out of bounds")));
}
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result->x[i] = c->x[dx[i] - 1];
result->x[i + dim] = c->x[dx[i] + c->dim - 1];
}
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PG_FREE_IF_COPY(c, 0);
PG_RETURN_NDBOX(result);
}
Datum
cube_out(PG_FUNCTION_ARGS)
{
NDBOX *cube = PG_GETARG_NDBOX(0);
StringInfoData buf;
int dim = cube->dim;
bool equal = true;
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int i;
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int ndig;
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initStringInfo(&buf);
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/*
* Get the number of digits to display.
*/
ndig = DBL_DIG + extra_float_digits;
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if (ndig < 1)
ndig = 1;
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/*
* while printing the first (LL) corner, check if it is equal to the
* second one
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*/
appendStringInfoChar(&buf, '(');
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for (i = 0; i < dim; i++)
{
if (i > 0)
appendStringInfo(&buf, ", ");
appendStringInfo(&buf, "%.*g", ndig, cube->x[i]);
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if (cube->x[i] != cube->x[i + dim])
equal = false;
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}
appendStringInfoChar(&buf, ')');
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if (!equal)
{
appendStringInfo(&buf, ",(");
for (i = 0; i < dim; i++)
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{
if (i > 0)
appendStringInfo(&buf, ", ");
appendStringInfo(&buf, "%.*g", ndig, cube->x[i + dim]);
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}
appendStringInfoChar(&buf, ')');
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}
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PG_FREE_IF_COPY(cube, 0);
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PG_RETURN_CSTRING(buf.data);
}
/*****************************************************************************
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* GiST functions
*****************************************************************************/
/*
** The GiST Consistent method for boxes
** Should return false if for all data items x below entry,
** the predicate x op query == FALSE, where op is the oper
** corresponding to strategy in the pg_amop table.
*/
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Datum
g_cube_consistent(PG_FUNCTION_ARGS)
{
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GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
NDBOX *query = PG_GETARG_NDBOX(1);
StrategyNumber strategy = (StrategyNumber) PG_GETARG_UINT16(2);
/* Oid subtype = PG_GETARG_OID(3); */
bool *recheck = (bool *) PG_GETARG_POINTER(4);
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bool res;
/* All cases served by this function are exact */
*recheck = false;
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/*
* if entry is not leaf, use g_cube_internal_consistent, else use
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* g_cube_leaf_consistent
*/
if (GIST_LEAF(entry))
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res = g_cube_leaf_consistent(DatumGetNDBOX(entry->key),
query, strategy);
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else
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res = g_cube_internal_consistent(DatumGetNDBOX(entry->key),
query, strategy);
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PG_FREE_IF_COPY(query, 1);
PG_RETURN_BOOL(res);
}
/*
** The GiST Union method for boxes
** returns the minimal bounding box that encloses all the entries in entryvec
*/
Datum
g_cube_union(PG_FUNCTION_ARGS)
{
GistEntryVector *entryvec = (GistEntryVector *) PG_GETARG_POINTER(0);
int *sizep = (int *) PG_GETARG_POINTER(1);
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NDBOX *out = (NDBOX *) NULL;
NDBOX *tmp;
int i;
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/*
* fprintf(stderr, "union\n");
*/
tmp = DatumGetNDBOX(entryvec->vector[0].key);
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/*
* sizep = sizeof(NDBOX); -- NDBOX has variable size
*/
*sizep = VARSIZE(tmp);
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for (i = 1; i < entryvec->n; i++)
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{
out = g_cube_binary_union(tmp,
DatumGetNDBOX(entryvec->vector[i].key),
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sizep);
tmp = out;
}
PG_RETURN_POINTER(out);
}
/*
** GiST Compress and Decompress methods for boxes
** do not do anything.
*/
Datum
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g_cube_compress(PG_FUNCTION_ARGS)
{
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PG_RETURN_DATUM(PG_GETARG_DATUM(0));
}
Datum
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g_cube_decompress(PG_FUNCTION_ARGS)
{
GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
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NDBOX *key = DatumGetNDBOX(PG_DETOAST_DATUM(entry->key));
if (key != DatumGetNDBOX(entry->key))
{
GISTENTRY *retval = (GISTENTRY *) palloc(sizeof(GISTENTRY));
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gistentryinit(*retval, PointerGetDatum(key),
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entry->rel, entry->page,
entry->offset, FALSE);
PG_RETURN_POINTER(retval);
}
PG_RETURN_POINTER(entry);
}
/*
** The GiST Penalty method for boxes
** As in the R-tree paper, we use change in area as our penalty metric
*/
Datum
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g_cube_penalty(PG_FUNCTION_ARGS)
{
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GISTENTRY *origentry = (GISTENTRY *) PG_GETARG_POINTER(0);
GISTENTRY *newentry = (GISTENTRY *) PG_GETARG_POINTER(1);
float *result = (float *) PG_GETARG_POINTER(2);
NDBOX *ud;
double tmp1,
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tmp2;
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ud = cube_union_v0(DatumGetNDBOX(origentry->key),
DatumGetNDBOX(newentry->key));
rt_cube_size(ud, &tmp1);
rt_cube_size(DatumGetNDBOX(origentry->key), &tmp2);
*result = (float) (tmp1 - tmp2);
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/*
* fprintf(stderr, "penalty\n"); fprintf(stderr, "\t%g\n", *result);
*/
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PG_RETURN_FLOAT8(*result);
}
/*
** The GiST PickSplit method for boxes
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** We use Guttman's poly time split algorithm
*/
Datum
g_cube_picksplit(PG_FUNCTION_ARGS)
{
GistEntryVector *entryvec = (GistEntryVector *) PG_GETARG_POINTER(0);
GIST_SPLITVEC *v = (GIST_SPLITVEC *) PG_GETARG_POINTER(1);
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OffsetNumber i,
j;
NDBOX *datum_alpha,
*datum_beta;
NDBOX *datum_l,
*datum_r;
NDBOX *union_d,
*union_dl,
*union_dr;
NDBOX *inter_d;
bool firsttime;
double size_alpha,
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size_beta,
size_union,
size_inter;
double size_waste,
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waste;
double size_l,
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size_r;
int nbytes;
OffsetNumber seed_1 = 1,
seed_2 = 2;
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OffsetNumber *left,
*right;
OffsetNumber maxoff;
/*
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* fprintf(stderr, "picksplit\n");
*/
maxoff = entryvec->n - 2;
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nbytes = (maxoff + 2) * sizeof(OffsetNumber);
v->spl_left = (OffsetNumber *) palloc(nbytes);
v->spl_right = (OffsetNumber *) palloc(nbytes);
firsttime = true;
waste = 0.0;
for (i = FirstOffsetNumber; i < maxoff; i = OffsetNumberNext(i))
{
datum_alpha = DatumGetNDBOX(entryvec->vector[i].key);
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for (j = OffsetNumberNext(i); j <= maxoff; j = OffsetNumberNext(j))
{
datum_beta = DatumGetNDBOX(entryvec->vector[j].key);
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/* compute the wasted space by unioning these guys */
/* size_waste = size_union - size_inter; */
union_d = cube_union_v0(datum_alpha, datum_beta);
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rt_cube_size(union_d, &size_union);
inter_d = DatumGetNDBOX(DirectFunctionCall2(cube_inter,
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entryvec->vector[i].key, entryvec->vector[j].key));
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rt_cube_size(inter_d, &size_inter);
size_waste = size_union - size_inter;
/*
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* are these a more promising split than what we've already seen?
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*/
if (size_waste > waste || firsttime)
{
waste = size_waste;
seed_1 = i;
seed_2 = j;
firsttime = false;
}
}
}
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left = v->spl_left;
v->spl_nleft = 0;
right = v->spl_right;
v->spl_nright = 0;
datum_alpha = DatumGetNDBOX(entryvec->vector[seed_1].key);
datum_l = cube_union_v0(datum_alpha, datum_alpha);
rt_cube_size(datum_l, &size_l);
datum_beta = DatumGetNDBOX(entryvec->vector[seed_2].key);
datum_r = cube_union_v0(datum_beta, datum_beta);
rt_cube_size(datum_r, &size_r);
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/*
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* Now split up the regions between the two seeds. An important property
* of this split algorithm is that the split vector v has the indices of
* items to be split in order in its left and right vectors. We exploit
* this property by doing a merge in the code that actually splits the
* page.
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*
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* For efficiency, we also place the new index tuple in this loop. This is
* handled at the very end, when we have placed all the existing tuples
* and i == maxoff + 1.
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*/
maxoff = OffsetNumberNext(maxoff);
for (i = FirstOffsetNumber; i <= maxoff; i = OffsetNumberNext(i))
{
/*
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* If we've already decided where to place this item, just put it on
* the right list. Otherwise, we need to figure out which page needs
* the least enlargement in order to store the item.
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*/
if (i == seed_1)
{
*left++ = i;
v->spl_nleft++;
continue;
}
else if (i == seed_2)
{
*right++ = i;
v->spl_nright++;
continue;
}
/* okay, which page needs least enlargement? */
datum_alpha = DatumGetNDBOX(entryvec->vector[i].key);
union_dl = cube_union_v0(datum_l, datum_alpha);
union_dr = cube_union_v0(datum_r, datum_alpha);
rt_cube_size(union_dl, &size_alpha);
rt_cube_size(union_dr, &size_beta);
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/* pick which page to add it to */
if (size_alpha - size_l < size_beta - size_r)
{
datum_l = union_dl;
size_l = size_alpha;
*left++ = i;
v->spl_nleft++;
}
else
{
datum_r = union_dr;
size_r = size_alpha;
*right++ = i;
v->spl_nright++;
}
}
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*left = *right = FirstOffsetNumber; /* sentinel value, see dosplit() */
v->spl_ldatum = PointerGetDatum(datum_l);
v->spl_rdatum = PointerGetDatum(datum_r);
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PG_RETURN_POINTER(v);
}
/*
** Equality method
*/
Datum
g_cube_same(PG_FUNCTION_ARGS)
{
NDBOX *b1 = PG_GETARG_NDBOX(0);
NDBOX *b2 = PG_GETARG_NDBOX(1);
bool *result = (bool *) PG_GETARG_POINTER(2);
if (cube_cmp_v0(b1, b2) == 0)
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*result = TRUE;
else
*result = FALSE;
/*
* fprintf(stderr, "same: %s\n", (*result ? "TRUE" : "FALSE" ));
*/
PG_RETURN_NDBOX(result);
}
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/*
** SUPPORT ROUTINES
*/
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bool
g_cube_leaf_consistent(NDBOX *key,
NDBOX *query,
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StrategyNumber strategy)
{
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bool retval;
/*
* fprintf(stderr, "leaf_consistent, %d\n", strategy);
*/
switch (strategy)
{
case RTOverlapStrategyNumber:
retval = (bool) cube_overlap_v0(key, query);
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break;
case RTSameStrategyNumber:
retval = (bool) (cube_cmp_v0(key, query) == 0);
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break;
case RTContainsStrategyNumber:
case RTOldContainsStrategyNumber:
retval = (bool) cube_contains_v0(key, query);
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break;
case RTContainedByStrategyNumber:
case RTOldContainedByStrategyNumber:
retval = (bool) cube_contains_v0(query, key);
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break;
default:
retval = FALSE;
}
return (retval);
}
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bool
g_cube_internal_consistent(NDBOX *key,
NDBOX *query,
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StrategyNumber strategy)
{
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bool retval;
/*
* fprintf(stderr, "internal_consistent, %d\n", strategy);
*/
switch (strategy)
{
case RTOverlapStrategyNumber:
retval = (bool) cube_overlap_v0(key, query);
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break;
case RTSameStrategyNumber:
case RTContainsStrategyNumber:
case RTOldContainsStrategyNumber:
retval = (bool) cube_contains_v0(key, query);
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break;
case RTContainedByStrategyNumber:
case RTOldContainedByStrategyNumber:
retval = (bool) cube_overlap_v0(key, query);
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break;
default:
retval = FALSE;
}
return (retval);
}
NDBOX *
g_cube_binary_union(NDBOX *r1, NDBOX *r2, int *sizep)
{
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NDBOX *retval;
retval = cube_union_v0(r1, r2);
*sizep = VARSIZE(retval);
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return (retval);
}
/* cube_union_v0 */
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NDBOX *
cube_union_v0(NDBOX *a, NDBOX *b)
{
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int i;
NDBOX *result;
if (a->dim >= b->dim)
{
result = palloc0(VARSIZE(a));
SET_VARSIZE(result, VARSIZE(a));
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result->dim = a->dim;
}
else
{
result = palloc0(VARSIZE(b));
SET_VARSIZE(result, VARSIZE(b));
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result->dim = b->dim;
}
/* swap the box pointers if needed */
if (a->dim < b->dim)
{
NDBOX *tmp = b;
b = a;
a = tmp;
}
/*
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* use the potentially smaller of the two boxes (b) to fill in the result,
* padding absent dimensions with zeroes
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*/
for (i = 0; i < b->dim; i++)
{
result->x[i] = Min(b->x[i], b->x[i + b->dim]);
result->x[i + a->dim] = Max(b->x[i], b->x[i + b->dim]);
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}
for (i = b->dim; i < a->dim; i++)
{
result->x[i] = 0;
result->x[i + a->dim] = 0;
}
/* compute the union */
for (i = 0; i < a->dim; i++)
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{
result->x[i] =
Min(Min(a->x[i], a->x[i + a->dim]), result->x[i]);
result->x[i + a->dim] = Max(Max(a->x[i],
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a->x[i + a->dim]), result->x[i + a->dim]);
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}
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return (result);
}
Datum
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cube_union(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0);
NDBOX *b = PG_GETARG_NDBOX(1);
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NDBOX *res;
res = cube_union_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_NDBOX(res);
}
/* cube_inter */
Datum
cube_inter(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0);
NDBOX *b = PG_GETARG_NDBOX(1);
NDBOX *result;
bool swapped = false;
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int i;
if (a->dim >= b->dim)
{
result = palloc0(VARSIZE(a));
SET_VARSIZE(result, VARSIZE(a));
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result->dim = a->dim;
}
else
{
result = palloc0(VARSIZE(b));
SET_VARSIZE(result, VARSIZE(b));
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result->dim = b->dim;
}
/* swap the box pointers if needed */
if (a->dim < b->dim)
{
NDBOX *tmp = b;
b = a;
a = tmp;
swapped = true;
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}
/*
* use the potentially smaller of the two boxes (b) to fill in the
* result, padding absent dimensions with zeroes
*/
for (i = 0; i < b->dim; i++)
{
result->x[i] = Min(b->x[i], b->x[i + b->dim]);
result->x[i + a->dim] = Max(b->x[i], b->x[i + b->dim]);
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}
for (i = b->dim; i < a->dim; i++)
{
result->x[i] = 0;
result->x[i + a->dim] = 0;
}
/* compute the intersection */
for (i = 0; i < a->dim; i++)
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{
result->x[i] =
Max(Min(a->x[i], a->x[i + a->dim]), result->x[i]);
result->x[i + a->dim] = Min(Max(a->x[i],
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a->x[i + a->dim]), result->x[i + a->dim]);
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}
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if (swapped)
{
PG_FREE_IF_COPY(b, 0);
PG_FREE_IF_COPY(a, 1);
}
else
{
PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
}
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/*
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* Is it OK to return a non-null intersection for non-overlapping boxes?
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*/
PG_RETURN_NDBOX(result);
}
/* cube_size */
Datum
cube_size(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0);
double result;
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int i,
j;
result = 1.0;
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for (i = 0, j = a->dim; i < a->dim; i++, j++)
result = result * Abs((a->x[j] - a->x[i]));
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PG_FREE_IF_COPY(a, 0);
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PG_RETURN_FLOAT8(result);
}
void
rt_cube_size(NDBOX *a, double *size)
{
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int i,
j;
if (a == (NDBOX *) NULL)
*size = 0.0;
else
{
*size = 1.0;
for (i = 0, j = a->dim; i < a->dim; i++, j++)
*size = (*size) * Abs((a->x[j] - a->x[i]));
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}
return;
}
/* make up a metric in which one box will be 'lower' than the other
-- this can be useful for sorting and to determine uniqueness */
int32
cube_cmp_v0(NDBOX *a, NDBOX *b)
{
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int i;
int dim;
dim = Min(a->dim, b->dim);
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/* compare the common dimensions */
for (i = 0; i < dim; i++)
{
if (Min(a->x[i], a->x[a->dim + i]) >
Min(b->x[i], b->x[b->dim + i]))
return 1;
if (Min(a->x[i], a->x[a->dim + i]) <
Min(b->x[i], b->x[b->dim + i]))
return -1;
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}
for (i = 0; i < dim; i++)
{
if (Max(a->x[i], a->x[a->dim + i]) >
Max(b->x[i], b->x[b->dim + i]))
return 1;
if (Max(a->x[i], a->x[a->dim + i]) <
Max(b->x[i], b->x[b->dim + i]))
return -1;
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}
/* compare extra dimensions to zero */
if (a->dim > b->dim)
{
for (i = dim; i < a->dim; i++)
{
if (Min(a->x[i], a->x[a->dim + i]) > 0)
return 1;
if (Min(a->x[i], a->x[a->dim + i]) < 0)
return -1;
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}
for (i = dim; i < a->dim; i++)
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{
if (Max(a->x[i], a->x[a->dim + i]) > 0)
return 1;
if (Max(a->x[i], a->x[a->dim + i]) < 0)
return -1;
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}
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/*
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* if all common dimensions are equal, the cube with more dimensions
* wins
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*/
return 1;
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}
if (a->dim < b->dim)
{
for (i = dim; i < b->dim; i++)
{
if (Min(b->x[i], b->x[b->dim + i]) > 0)
return -1;
if (Min(b->x[i], b->x[b->dim + i]) < 0)
return 1;
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}
for (i = dim; i < b->dim; i++)
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{
if (Max(b->x[i], b->x[b->dim + i]) > 0)
return -1;
if (Max(b->x[i], b->x[b->dim + i]) < 0)
return 1;
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}
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/*
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* if all common dimensions are equal, the cube with more dimensions
* wins
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*/
return -1;
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}
/* They're really equal */
return 0;
}
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Datum
cube_cmp(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
int32 res;
res = cube_cmp_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_INT32(res);
}
Datum
cube_eq(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
int32 res;
res = cube_cmp_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res == 0);
}
Datum
cube_ne(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
int32 res;
res = cube_cmp_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res != 0);
}
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Datum
cube_lt(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
int32 res;
res = cube_cmp_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res < 0);
}
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Datum
cube_gt(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
int32 res;
res = cube_cmp_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res > 0);
}
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Datum
cube_le(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
int32 res;
res = cube_cmp_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res <= 0);
}
Datum
cube_ge(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
int32 res;
res = cube_cmp_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res >= 0);
}
/* Contains */
/* Box(A) CONTAINS Box(B) IFF pt(A) < pt(B) */
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bool
cube_contains_v0(NDBOX *a, NDBOX *b)
{
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int i;
if ((a == NULL) || (b == NULL))
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return (FALSE);
if (a->dim < b->dim)
{
/*
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* the further comparisons will make sense if the excess dimensions of
* (b) were zeroes Since both UL and UR coordinates must be zero, we
* can check them all without worrying about which is which.
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*/
for (i = a->dim; i < b->dim; i++)
{
if (b->x[i] != 0)
return (FALSE);
if (b->x[i + b->dim] != 0)
return (FALSE);
}
}
/* Can't care less about the excess dimensions of (a), if any */
for (i = 0; i < Min(a->dim, b->dim); i++)
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{
if (Min(a->x[i], a->x[a->dim + i]) >
Min(b->x[i], b->x[b->dim + i]))
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return (FALSE);
if (Max(a->x[i], a->x[a->dim + i]) <
Max(b->x[i], b->x[b->dim + i]))
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return (FALSE);
}
return (TRUE);
}
Datum
cube_contains(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
bool res;
res = cube_contains_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res);
}
/* Contained */
/* Box(A) Contained by Box(B) IFF Box(B) Contains Box(A) */
Datum
cube_contained(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
bool res;
res = cube_contains_v0(b, a);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res);
}
/* Overlap */
/* Box(A) Overlap Box(B) IFF (pt(a)LL < pt(B)UR) && (pt(b)LL < pt(a)UR) */
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bool
cube_overlap_v0(NDBOX *a, NDBOX *b)
{
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int i;
/*
* This *very bad* error was found in the source: if ( (a==NULL) ||
* (b=NULL) ) return(FALSE);
*/
if ((a == NULL) || (b == NULL))
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return (FALSE);
/* swap the box pointers if needed */
if (a->dim < b->dim)
{
NDBOX *tmp = b;
b = a;
a = tmp;
}
/* compare within the dimensions of (b) */
for (i = 0; i < b->dim; i++)
{
if (Min(a->x[i], a->x[a->dim + i]) >
Max(b->x[i], b->x[b->dim + i]))
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return (FALSE);
if (Max(a->x[i], a->x[a->dim + i]) <
Min(b->x[i], b->x[b->dim + i]))
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return (FALSE);
}
/* compare to zero those dimensions in (a) absent in (b) */
for (i = b->dim; i < a->dim; i++)
{
if (Min(a->x[i], a->x[a->dim + i]) > 0)
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return (FALSE);
if (Max(a->x[i], a->x[a->dim + i]) < 0)
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return (FALSE);
}
return (TRUE);
}
Datum
cube_overlap(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
bool res;
res = cube_overlap_v0(a, b);
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PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
PG_RETURN_BOOL(res);
}
/* Distance */
/* The distance is computed as a per axis sum of the squared distances
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between 1D projections of the boxes onto Cartesian axes. Assuming zero
distance between overlapping projections, this metric coincides with the
"common sense" geometric distance */
Datum
cube_distance(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0),
*b = PG_GETARG_NDBOX(1);
bool swapped = false;
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double d,
distance;
int i;
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/* swap the box pointers if needed */
if (a->dim < b->dim)
{
NDBOX *tmp = b;
b = a;
a = tmp;
swapped = true;
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}
distance = 0.0;
/* compute within the dimensions of (b) */
for (i = 0; i < b->dim; i++)
{
d = distance_1D(a->x[i], a->x[i + a->dim], b->x[i], b->x[i + b->dim]);
distance += d * d;
}
/* compute distance to zero for those dimensions in (a) absent in (b) */
for (i = b->dim; i < a->dim; i++)
{
d = distance_1D(a->x[i], a->x[i + a->dim], 0.0, 0.0);
distance += d * d;
}
if (swapped)
{
PG_FREE_IF_COPY(b, 0);
PG_FREE_IF_COPY(a, 1);
}
else
{
PG_FREE_IF_COPY(a, 0);
PG_FREE_IF_COPY(b, 1);
}
PG_RETURN_FLOAT8(sqrt(distance));
}
static double
distance_1D(double a1, double a2, double b1, double b2)
{
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/* interval (a) is entirely on the left of (b) */
if ((a1 <= b1) && (a2 <= b1) && (a1 <= b2) && (a2 <= b2))
return (Min(b1, b2) - Max(a1, a2));
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/* interval (a) is entirely on the right of (b) */
if ((a1 > b1) && (a2 > b1) && (a1 > b2) && (a2 > b2))
return (Min(a1, a2) - Max(b1, b2));
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/* the rest are all sorts of intersections */
return (0.0);
}
/* Test if a box is also a point */
Datum
cube_is_point(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0);
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int i,
j;
for (i = 0, j = a->dim; i < a->dim; i++, j++)
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{
if (a->x[i] != a->x[j])
PG_RETURN_BOOL(FALSE);
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}
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PG_FREE_IF_COPY(a, 0);
PG_RETURN_BOOL(TRUE);
}
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/* Return dimensions in use in the data structure */
Datum
cube_dim(PG_FUNCTION_ARGS)
{
NDBOX *c = PG_GETARG_NDBOX(0);
int dim = c->dim;
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PG_FREE_IF_COPY(c, 0);
PG_RETURN_INT32(dim);
}
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/* Return a specific normalized LL coordinate */
Datum
cube_ll_coord(PG_FUNCTION_ARGS)
{
NDBOX *c = PG_GETARG_NDBOX(0);
int n = PG_GETARG_INT16(1);
double result;
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if (c->dim >= n && n > 0)
result = Min(c->x[n - 1], c->x[c->dim + n - 1]);
else
result = 0;
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PG_FREE_IF_COPY(c, 0);
PG_RETURN_FLOAT8(result);
}
/* Return a specific normalized UR coordinate */
Datum
cube_ur_coord(PG_FUNCTION_ARGS)
{
NDBOX *c = PG_GETARG_NDBOX(0);
int n = PG_GETARG_INT16(1);
double result;
if (c->dim >= n && n > 0)
result = Max(c->x[n - 1], c->x[c->dim + n - 1]);
else
result = 0;
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PG_FREE_IF_COPY(c, 0);
PG_RETURN_FLOAT8(result);
}
/* Increase or decrease box size by a radius in at least n dimensions. */
Datum
cube_enlarge(PG_FUNCTION_ARGS)
{
NDBOX *a = PG_GETARG_NDBOX(0);
double r = PG_GETARG_FLOAT8(1);
int4 n = PG_GETARG_INT32(2);
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NDBOX *result;
int dim = 0;
int size;
int i,
j,
k;
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2003-08-04 08:43:34 +08:00
if (n > CUBE_MAX_DIM)
n = CUBE_MAX_DIM;
if (r > 0 && n > 0)
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dim = n;
if (a->dim > dim)
dim = a->dim;
size = offsetof(NDBOX, x[0]) +sizeof(double) * dim * 2;
result = (NDBOX *) palloc0(size);
SET_VARSIZE(result, size);
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result->dim = dim;
for (i = 0, j = dim, k = a->dim; i < a->dim; i++, j++, k++)
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{
if (a->x[i] >= a->x[k])
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{
result->x[i] = a->x[k] - r;
result->x[j] = a->x[i] + r;
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}
else
{
result->x[i] = a->x[i] - r;
result->x[j] = a->x[k] + r;
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}
if (result->x[i] > result->x[j])
{
result->x[i] = (result->x[i] + result->x[j]) / 2;
result->x[j] = result->x[i];
}
}
/* dim > a->dim only if r > 0 */
for (; i < dim; i++, j++)
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{
result->x[i] = -r;
result->x[j] = r;
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}
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PG_FREE_IF_COPY(a, 0);
PG_RETURN_NDBOX(result);
}
/* Create a one dimensional box with identical upper and lower coordinates */
Datum
cube_f8(PG_FUNCTION_ARGS)
{
double x = PG_GETARG_FLOAT8(0);
NDBOX *result;
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int size;
size = offsetof(NDBOX, x[0]) +sizeof(double) * 2;
result = (NDBOX *) palloc0(size);
SET_VARSIZE(result, size);
result->dim = 1;
result->x[0] = result->x[1] = x;
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PG_RETURN_NDBOX(result);
}
/* Create a one dimensional box */
Datum
cube_f8_f8(PG_FUNCTION_ARGS)
{
double x0 = PG_GETARG_FLOAT8(0);
double x1 = PG_GETARG_FLOAT8(1);
NDBOX *result;
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int size;
size = offsetof(NDBOX, x[0]) +sizeof(double) * 2;
result = (NDBOX *) palloc0(size);
SET_VARSIZE(result, size);
result->dim = 1;
result->x[0] = x0;
result->x[1] = x1;
PG_RETURN_NDBOX(result);
}
/* Add a dimension to an existing cube with the same values for the new
coordinate */
Datum
cube_c_f8(PG_FUNCTION_ARGS)
{
NDBOX *c = PG_GETARG_NDBOX(0);
double x = PG_GETARG_FLOAT8(1);
NDBOX *result;
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int size;
int i;
size = offsetof(NDBOX, x[0]) +sizeof(double) * (c->dim + 1) *2;
result = (NDBOX *) palloc0(size);
SET_VARSIZE(result, size);
result->dim = c->dim + 1;
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for (i = 0; i < c->dim; i++)
{
result->x[i] = c->x[i];
result->x[result->dim + i] = c->x[c->dim + i];
}
result->x[result->dim - 1] = x;
result->x[2 * result->dim - 1] = x;
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PG_FREE_IF_COPY(c, 0);
PG_RETURN_NDBOX(result);
}
/* Add a dimension to an existing cube */
Datum
cube_c_f8_f8(PG_FUNCTION_ARGS)
{
NDBOX *c = PG_GETARG_NDBOX(0);
double x1 = PG_GETARG_FLOAT8(1);
double x2 = PG_GETARG_FLOAT8(2);
NDBOX *result;
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int size;
int i;
size = offsetof(NDBOX, x[0]) +sizeof(double) * (c->dim + 1) *2;
result = (NDBOX *) palloc0(size);
SET_VARSIZE(result, size);
result->dim = c->dim + 1;
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for (i = 0; i < c->dim; i++)
{
result->x[i] = c->x[i];
result->x[result->dim + i] = c->x[c->dim + i];
}
result->x[result->dim - 1] = x1;
result->x[2 * result->dim - 1] = x2;
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PG_FREE_IF_COPY(c, 0);
PG_RETURN_NDBOX(result);
}