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merging.

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This commit is contained in:
Alexey Botchkov
2011-11-17 14:27:00 +04:00
parent fdeaedb43b 7c7269d372
commit b2b035134f
35 changed files with 9229 additions and 312 deletions
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1
libmysqld/CMakeLists.txt
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@ -134,6 +134,7 @@ SET(LIBMYSQLD_SOURCES libmysqld.c emb_qcache.cc lib_sql.cc
../sql/sql_tablespace.cc ../sql/sql_table.cc ../sql/sql_test.cc
../sql/sql_trigger.cc ../sql/sql_udf.cc ../sql/sql_union.cc
../sql/sql_update.cc ../sql/sql_view.cc ../sql/sql_profile.cc
../sql/gcalc_tools.cc ../sql/gcalc_slicescan.cc
../sql/strfunc.cc ../sql/table.cc ../sql/thr_malloc.cc
../sql/time.cc ../sql/tztime.cc ../sql/uniques.cc ../sql/unireg.cc
../sql/partition_info.cc ../sql/sql_connect.cc

1
libmysqld/Makefile.am
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@ -62,6 +62,7 @@ sqlsources = derror.cc field.cc field_conv.cc strfunc.cc filesort.cc \
opt_sum.cc procedure.cc records.cc sql_acl.cc \
sql_load.cc discover.cc sql_locale.cc \
sql_profile.cc \
gcalc_slicescan.cc gcalc_tools.cc \
sql_analyse.cc sql_base.cc sql_cache.cc sql_class.cc \
sql_crypt.cc sql_db.cc sql_delete.cc sql_error.cc sql_insert.cc \
sql_join_cache.cc \

22
mysql-test/r/archive_gis.result
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@ -236,7 +236,7 @@ explain extended select Dimension(g), GeometryType(g), IsEmpty(g), AsText(Envelo
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_geometry ALL NULL NULL NULL NULL 21 100.00
Warnings:
Note 1003 select dimension(`test`.`gis_geometry`.`g`) AS `Dimension(g)`,geometrytype(`test`.`gis_geometry`.`g`) AS `GeometryType(g)`,isempty(`test`.`gis_geometry`.`g`) AS `IsEmpty(g)`,astext(envelope(`test`.`gis_geometry`.`g`)) AS `AsText(Envelope(g))` from `test`.`gis_geometry`
Note 1003 select st_dimension(`test`.`gis_geometry`.`g`) AS `Dimension(g)`,st_geometrytype(`test`.`gis_geometry`.`g`) AS `GeometryType(g)`,st_isempty(`test`.`gis_geometry`.`g`) AS `IsEmpty(g)`,st_astext(st_envelope(`test`.`gis_geometry`.`g`)) AS `AsText(Envelope(g))` from `test`.`gis_geometry`
SELECT fid, X(g) FROM gis_point ORDER by fid;
fid X(g)
101 10
@ -253,7 +253,7 @@ explain extended select X(g),Y(g) FROM gis_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_point ALL NULL NULL NULL NULL 4 100.00
Warnings:
Note 1003 select x(`test`.`gis_point`.`g`) AS `X(g)`,y(`test`.`gis_point`.`g`) AS `Y(g)` from `test`.`gis_point`
Note 1003 select st_x(`test`.`gis_point`.`g`) AS `X(g)`,st_y(`test`.`gis_point`.`g`) AS `Y(g)` from `test`.`gis_point`
SELECT fid, AsText(StartPoint(g)) FROM gis_line ORDER by fid;
fid AsText(StartPoint(g))
105 POINT(0 0)
@ -288,7 +288,7 @@ explain extended select AsText(StartPoint(g)),AsText(EndPoint(g)),GLength(g),Num
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_line ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select astext(startpoint(`test`.`gis_line`.`g`)) AS `AsText(StartPoint(g))`,astext(endpoint(`test`.`gis_line`.`g`)) AS `AsText(EndPoint(g))`,glength(`test`.`gis_line`.`g`) AS `GLength(g)`,numpoints(`test`.`gis_line`.`g`) AS `NumPoints(g)`,astext(pointn(`test`.`gis_line`.`g`,2)) AS `AsText(PointN(g, 2))`,isclosed(`test`.`gis_line`.`g`) AS `IsClosed(g)` from `test`.`gis_line`
Note 1003 select st_astext(st_startpoint(`test`.`gis_line`.`g`)) AS `AsText(StartPoint(g))`,st_astext(st_endpoint(`test`.`gis_line`.`g`)) AS `AsText(EndPoint(g))`,st_length(`test`.`gis_line`.`g`) AS `GLength(g)`,st_numpoints(`test`.`gis_line`.`g`) AS `NumPoints(g)`,st_astext(st_pointn(`test`.`gis_line`.`g`,2)) AS `AsText(PointN(g, 2))`,st_isclosed(`test`.`gis_line`.`g`) AS `IsClosed(g)` from `test`.`gis_line`
SELECT fid, AsText(Centroid(g)) FROM gis_polygon ORDER by fid;
fid AsText(Centroid(g))
108 POINT(15 15)
@ -318,7 +318,7 @@ explain extended select AsText(Centroid(g)),Area(g),AsText(ExteriorRing(g)),NumI
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_polygon ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select astext(centroid(`test`.`gis_polygon`.`g`)) AS `AsText(Centroid(g))`,area(`test`.`gis_polygon`.`g`) AS `Area(g)`,astext(exteriorring(`test`.`gis_polygon`.`g`)) AS `AsText(ExteriorRing(g))`,numinteriorrings(`test`.`gis_polygon`.`g`) AS `NumInteriorRings(g)`,astext(interiorringn(`test`.`gis_polygon`.`g`,1)) AS `AsText(InteriorRingN(g, 1))` from `test`.`gis_polygon`
Note 1003 select st_astext(st_centroid(`test`.`gis_polygon`.`g`)) AS `AsText(Centroid(g))`,st_area(`test`.`gis_polygon`.`g`) AS `Area(g)`,st_astext(st_exteriorring(`test`.`gis_polygon`.`g`)) AS `AsText(ExteriorRing(g))`,st_numinteriorrings(`test`.`gis_polygon`.`g`) AS `NumInteriorRings(g)`,st_astext(st_interiorringn(`test`.`gis_polygon`.`g`,1)) AS `AsText(InteriorRingN(g, 1))` from `test`.`gis_polygon`
SELECT fid, IsClosed(g) FROM gis_multi_line ORDER by fid;
fid IsClosed(g)
114 0
@ -357,7 +357,7 @@ explain extended SELECT fid, NumGeometries(g) from gis_multi_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_multi_point ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,numgeometries(`test`.`gis_multi_point`.`g`) AS `NumGeometries(g)` from `test`.`gis_multi_point`
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,st_numgeometries(`test`.`gis_multi_point`.`g`) AS `NumGeometries(g)` from `test`.`gis_multi_point`
SELECT fid, AsText(GeometryN(g, 2)) from gis_multi_point ORDER by fid;
fid AsText(GeometryN(g, 2))
111 POINT(10 10)
@ -385,17 +385,17 @@ explain extended SELECT fid, AsText(GeometryN(g, 2)) from gis_multi_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_multi_point ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,astext(geometryn(`test`.`gis_multi_point`.`g`,2)) AS `AsText(GeometryN(g, 2))` from `test`.`gis_multi_point`
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,st_astext(st_geometryn(`test`.`gis_multi_point`.`g`,2)) AS `AsText(GeometryN(g, 2))` from `test`.`gis_multi_point`
SELECT g1.fid as first, g2.fid as second,
Within(g1.g, g2.g) as w, Contains(g1.g, g2.g) as c, Overlaps(g1.g, g2.g) as o,
Equals(g1.g, g2.g) as e, Disjoint(g1.g, g2.g) as d, Touches(g1.g, g2.g) as t,
Intersects(g1.g, g2.g) as i, Crosses(g1.g, g2.g) as r
FROM gis_geometrycollection g1, gis_geometrycollection g2 ORDER BY first, second;
first second w c o e d t i r
120 120 1 1 0 1 0 0 1 0
120 120 1 1 0 1 0 1 1 1
120 121 0 0 1 0 0 0 1 0
121 120 0 0 1 0 0 0 1 0
121 121 1 1 0 1 0 0 1 0
121 121 1 1 0 1 0 1 1 1
explain extended SELECT g1.fid as first, g2.fid as second,
Within(g1.g, g2.g) as w, Contains(g1.g, g2.g) as c, Overlaps(g1.g, g2.g) as o,
Equals(g1.g, g2.g) as e, Disjoint(g1.g, g2.g) as d, Touches(g1.g, g2.g) as t,
@ -405,7 +405,7 @@ id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE g1 ALL NULL NULL NULL NULL 2 100.00 Using temporary; Using filesort
1 SIMPLE g2 ALL NULL NULL NULL NULL 2 100.00 Using join buffer (flat, BNL join)
Warnings:
Note 1003 select `test`.`g1`.`fid` AS `first`,`test`.`g2`.`fid` AS `second`,within(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `w`,contains(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `c`,overlaps(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `o`,equals(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `e`,disjoint(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `d`,touches(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `t`,intersects(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `i`,crosses(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `r` from `test`.`gis_geometrycollection` `g1` join `test`.`gis_geometrycollection` `g2` order by `test`.`g1`.`fid`,`test`.`g2`.`fid`
Note 1003 select `test`.`g1`.`fid` AS `first`,`test`.`g2`.`fid` AS `second`,st_within(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `w`,st_contains(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `c`,mbroverlaps(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `o`,mbrequals(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `e`,mbrdisjoint(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `d`,st_touches(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `t`,mbrintersects(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `i`,st_crosses(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `r` from `test`.`gis_geometrycollection` `g1` join `test`.`gis_geometrycollection` `g2` order by `test`.`g1`.`fid`,`test`.`g2`.`fid`
DROP TABLE gis_point, gis_line, gis_polygon, gis_multi_point, gis_multi_line, gis_multi_polygon, gis_geometrycollection, gis_geometry;
CREATE TABLE t1 (
a INTEGER PRIMARY KEY AUTO_INCREMENT,
@ -494,7 +494,7 @@ mbroverlaps
down,left,right,up
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS mbrtouches FROM t1 a1 JOIN t1 a2 ON MBRTouches( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
mbrtouches
down2,left2,right2,up2
big,center,down,down2,left,left2,right,right2,small,up,up2
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS mbrwithin FROM t1 a1 JOIN t1 a2 ON MBRWithin( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
mbrwithin
big,center
@ -515,7 +515,7 @@ overlaps
down,left,right,up
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS touches FROM t1 a1 JOIN t1 a2 ON Touches( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
touches
down2,left2,right2,up2
big,center,down,down2,left,left2,right,right2,small,up,up2
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS within FROM t1 a1 JOIN t1 a2 ON Within( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
within
big,center

436
mysql-test/r/gis-precise.result Normal file
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49
mysql-test/r/gis-rt-precise.result Normal file
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@ -0,0 +1,49 @@
DROP TABLE IF EXISTS t1;
CREATE TABLE t1 (
fid INT NOT NULL AUTO_INCREMENT PRIMARY KEY,
g GEOMETRY NOT NULL,
SPATIAL KEY(g)
) ENGINE=MyISAM;
SHOW CREATE TABLE t1;
Table Create Table
t1 CREATE TABLE `t1` (
`fid` int(11) NOT NULL AUTO_INCREMENT,
`g` geometry NOT NULL,
PRIMARY KEY (`fid`),
SPATIAL KEY `g` (`g`)
) ENGINE=MyISAM DEFAULT CHARSET=latin1
SELECT count(*) FROM t1;
count(*)
150
EXPLAIN SELECT fid, AsText(g) FROM t1 WHERE ST_Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 140))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 range g g 34 NULL 8 Using where
SELECT fid, AsText(g) FROM t1 WHERE ST_Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
fid AsText(g)
11 LINESTRING(140 140,160 160)
DROP TABLE t1;
CREATE TABLE t1 (
fid INT NOT NULL AUTO_INCREMENT PRIMARY KEY,
g GEOMETRY NOT NULL
) ENGINE=MyISAM;
ALTER TABLE t1 ADD SPATIAL KEY(g);
SHOW CREATE TABLE t1;
Table Create Table
t1 CREATE TABLE `t1` (
`fid` int(11) NOT NULL AUTO_INCREMENT,
`g` geometry NOT NULL,
PRIMARY KEY (`fid`),
SPATIAL KEY `g` (`g`)
) ENGINE=MyISAM AUTO_INCREMENT=101 DEFAULT CHARSET=latin1
SELECT count(*) FROM t1;
count(*)
100
EXPLAIN SELECT fid, AsText(g) FROM t1 WHERE ST_Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 40))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 range g g 34 NULL 1 Using where
SELECT fid, AsText(g) FROM t1 WHERE ST_Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 40))'));
fid AsText(g)
DROP TABLE t1;
End of 5.5 tests.

466
mysql-test/r/gis-rtree.result
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@ -12,6 +12,156 @@ t1 CREATE TABLE `t1` (
PRIMARY KEY (`fid`),
SPATIAL KEY `g` (`g`)
) ENGINE=MyISAM DEFAULT CHARSET=latin1
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(150 150, 150 150)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(149 149, 151 151)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(148 148, 152 152)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(147 147, 153 153)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(146 146, 154 154)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(145 145, 155 155)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(144 144, 156 156)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(143 143, 157 157)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(142 142, 158 158)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(141 141, 159 159)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(140 140, 160 160)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(139 139, 161 161)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(138 138, 162 162)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(137 137, 163 163)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(136 136, 164 164)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(135 135, 165 165)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(134 134, 166 166)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(133 133, 167 167)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(132 132, 168 168)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(131 131, 169 169)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(130 130, 170 170)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(129 129, 171 171)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(128 128, 172 172)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(127 127, 173 173)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(126 126, 174 174)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(125 125, 175 175)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(124 124, 176 176)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(123 123, 177 177)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(122 122, 178 178)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(121 121, 179 179)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(120 120, 180 180)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(119 119, 181 181)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(118 118, 182 182)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(117 117, 183 183)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(116 116, 184 184)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(115 115, 185 185)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(114 114, 186 186)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(113 113, 187 187)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(112 112, 188 188)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(111 111, 189 189)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(110 110, 190 190)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(109 109, 191 191)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(108 108, 192 192)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(107 107, 193 193)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(106 106, 194 194)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(105 105, 195 195)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(104 104, 196 196)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(103 103, 197 197)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(102 102, 198 198)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(101 101, 199 199)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(100 100, 200 200)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(99 99, 201 201)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(98 98, 202 202)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(97 97, 203 203)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(96 96, 204 204)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(95 95, 205 205)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(94 94, 206 206)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(93 93, 207 207)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(92 92, 208 208)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(91 91, 209 209)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(90 90, 210 210)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(89 89, 211 211)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(88 88, 212 212)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(87 87, 213 213)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(86 86, 214 214)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(85 85, 215 215)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(84 84, 216 216)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(83 83, 217 217)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(82 82, 218 218)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(81 81, 219 219)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(80 80, 220 220)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(79 79, 221 221)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(78 78, 222 222)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(77 77, 223 223)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(76 76, 224 224)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(75 75, 225 225)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(74 74, 226 226)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(73 73, 227 227)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(72 72, 228 228)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(71 71, 229 229)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(70 70, 230 230)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(69 69, 231 231)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(68 68, 232 232)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(67 67, 233 233)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(66 66, 234 234)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(65 65, 235 235)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(64 64, 236 236)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(63 63, 237 237)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(62 62, 238 238)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(61 61, 239 239)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(60 60, 240 240)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(59 59, 241 241)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(58 58, 242 242)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(57 57, 243 243)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(56 56, 244 244)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(55 55, 245 245)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(54 54, 246 246)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(53 53, 247 247)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(52 52, 248 248)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(51 51, 249 249)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(50 50, 250 250)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(49 49, 251 251)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(48 48, 252 252)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(47 47, 253 253)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(46 46, 254 254)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(45 45, 255 255)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(44 44, 256 256)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(43 43, 257 257)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(42 42, 258 258)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(41 41, 259 259)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(40 40, 260 260)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(39 39, 261 261)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(38 38, 262 262)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(37 37, 263 263)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(36 36, 264 264)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(35 35, 265 265)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(34 34, 266 266)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(33 33, 267 267)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(32 32, 268 268)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(31 31, 269 269)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(30 30, 270 270)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(29 29, 271 271)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(28 28, 272 272)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(27 27, 273 273)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(26 26, 274 274)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(25 25, 275 275)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(24 24, 276 276)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(23 23, 277 277)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(22 22, 278 278)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(21 21, 279 279)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(20 20, 280 280)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(19 19, 281 281)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(18 18, 282 282)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(17 17, 283 283)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(16 16, 284 284)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(15 15, 285 285)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(14 14, 286 286)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(13 13, 287 287)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(12 12, 288 288)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(11 11, 289 289)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(10 10, 290 290)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(9 9, 291 291)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(8 8, 292 292)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(7 7, 293 293)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(6 6, 294 294)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(5 5, 295 295)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(4 4, 296 296)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(3 3, 297 297)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(2 2, 298 298)'));
INSERT INTO t1 (g) VALUES (GeomFromText('LineString(1 1, 299 299)'));
SELECT count(*) FROM t1;
count(*)
150
@ -20,22 +170,112 @@ id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 range g g 34 NULL 8 Using where
SELECT fid, AsText(g) FROM t1 WHERE Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
fid AsText(g)
1 LINESTRING(150 150,150 150)
3 LINESTRING(148 148,152 152)
4 LINESTRING(147 147,153 153)
5 LINESTRING(146 146,154 154)
6 LINESTRING(145 145,155 155)
7 LINESTRING(144 144,156 156)
8 LINESTRING(143 143,157 157)
9 LINESTRING(142 142,158 158)
10 LINESTRING(141 141,159 159)
11 LINESTRING(140 140,160 160)
2 LINESTRING(149 149,151 151)
DROP TABLE t1;
CREATE TABLE t2 (
fid INT NOT NULL AUTO_INCREMENT PRIMARY KEY,
g GEOMETRY NOT NULL
) ENGINE=MyISAM;
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 10 * 10 - 9), Point(10 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 9 * 10 - 9), Point(10 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 8 * 10 - 9), Point(10 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 7 * 10 - 9), Point(10 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 6 * 10 - 9), Point(10 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 5 * 10 - 9), Point(10 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 4 * 10 - 9), Point(10 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 3 * 10 - 9), Point(10 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 2 * 10 - 9), Point(10 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(10 * 10 - 9, 1 * 10 - 9), Point(10 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 10 * 10 - 9), Point(9 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 9 * 10 - 9), Point(9 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 8 * 10 - 9), Point(9 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 7 * 10 - 9), Point(9 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 6 * 10 - 9), Point(9 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 5 * 10 - 9), Point(9 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 4 * 10 - 9), Point(9 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 3 * 10 - 9), Point(9 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 2 * 10 - 9), Point(9 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(9 * 10 - 9, 1 * 10 - 9), Point(9 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 10 * 10 - 9), Point(8 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 9 * 10 - 9), Point(8 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 8 * 10 - 9), Point(8 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 7 * 10 - 9), Point(8 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 6 * 10 - 9), Point(8 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 5 * 10 - 9), Point(8 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 4 * 10 - 9), Point(8 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 3 * 10 - 9), Point(8 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 2 * 10 - 9), Point(8 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(8 * 10 - 9, 1 * 10 - 9), Point(8 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 10 * 10 - 9), Point(7 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 9 * 10 - 9), Point(7 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 8 * 10 - 9), Point(7 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 7 * 10 - 9), Point(7 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 6 * 10 - 9), Point(7 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 5 * 10 - 9), Point(7 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 4 * 10 - 9), Point(7 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 3 * 10 - 9), Point(7 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 2 * 10 - 9), Point(7 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(7 * 10 - 9, 1 * 10 - 9), Point(7 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 10 * 10 - 9), Point(6 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 9 * 10 - 9), Point(6 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 8 * 10 - 9), Point(6 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 7 * 10 - 9), Point(6 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 6 * 10 - 9), Point(6 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 5 * 10 - 9), Point(6 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 4 * 10 - 9), Point(6 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 3 * 10 - 9), Point(6 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 2 * 10 - 9), Point(6 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(6 * 10 - 9, 1 * 10 - 9), Point(6 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 10 * 10 - 9), Point(5 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 9 * 10 - 9), Point(5 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 8 * 10 - 9), Point(5 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 7 * 10 - 9), Point(5 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 6 * 10 - 9), Point(5 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 5 * 10 - 9), Point(5 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 4 * 10 - 9), Point(5 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 3 * 10 - 9), Point(5 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 2 * 10 - 9), Point(5 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(5 * 10 - 9, 1 * 10 - 9), Point(5 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 10 * 10 - 9), Point(4 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 9 * 10 - 9), Point(4 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 8 * 10 - 9), Point(4 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 7 * 10 - 9), Point(4 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 6 * 10 - 9), Point(4 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 5 * 10 - 9), Point(4 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 4 * 10 - 9), Point(4 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 3 * 10 - 9), Point(4 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 2 * 10 - 9), Point(4 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(4 * 10 - 9, 1 * 10 - 9), Point(4 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 10 * 10 - 9), Point(3 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 9 * 10 - 9), Point(3 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 8 * 10 - 9), Point(3 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 7 * 10 - 9), Point(3 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 6 * 10 - 9), Point(3 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 5 * 10 - 9), Point(3 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 4 * 10 - 9), Point(3 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 3 * 10 - 9), Point(3 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 2 * 10 - 9), Point(3 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(3 * 10 - 9, 1 * 10 - 9), Point(3 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 10 * 10 - 9), Point(2 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 9 * 10 - 9), Point(2 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 8 * 10 - 9), Point(2 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 7 * 10 - 9), Point(2 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 6 * 10 - 9), Point(2 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 5 * 10 - 9), Point(2 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 4 * 10 - 9), Point(2 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 3 * 10 - 9), Point(2 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 2 * 10 - 9), Point(2 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(2 * 10 - 9, 1 * 10 - 9), Point(2 * 10, 1 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 10 * 10 - 9), Point(1 * 10, 10 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 9 * 10 - 9), Point(1 * 10, 9 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 8 * 10 - 9), Point(1 * 10, 8 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 7 * 10 - 9), Point(1 * 10, 7 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 6 * 10 - 9), Point(1 * 10, 6 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 5 * 10 - 9), Point(1 * 10, 5 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 4 * 10 - 9), Point(1 * 10, 4 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 3 * 10 - 9), Point(1 * 10, 3 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 2 * 10 - 9), Point(1 * 10, 2 * 10)));
INSERT INTO t2 (g) VALUES (LineString(Point(1 * 10 - 9, 1 * 10 - 9), Point(1 * 10, 1 * 10)));
ALTER TABLE t2 ADD SPATIAL KEY(g);
SHOW CREATE TABLE t2;
Table Create Table
@ -51,212 +291,408 @@ count(*)
EXPLAIN SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t2 range g g 34 NULL 4 Using where
1 SIMPLE t2 range g g 34 NULL 1 Using where
SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
fid AsText(g)
46 LINESTRING(51 41,60 50)
56 LINESTRING(41 41,50 50)
45 LINESTRING(51 51,60 60)
55 LINESTRING(41 51,50 60)
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 10 * 10 - 9), Point(10 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 9 * 10 - 9), Point(10 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 8 * 10 - 9), Point(10 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 7 * 10 - 9), Point(10 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 6 * 10 - 9), Point(10 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 5 * 10 - 9), Point(10 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 4 * 10 - 9), Point(10 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 3 * 10 - 9), Point(10 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 2 * 10 - 9), Point(10 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(10 * 10 - 9, 1 * 10 - 9), Point(10 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 10 * 10 - 9), Point(9 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 9 * 10 - 9), Point(9 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 8 * 10 - 9), Point(9 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 7 * 10 - 9), Point(9 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 6 * 10 - 9), Point(9 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 5 * 10 - 9), Point(9 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 4 * 10 - 9), Point(9 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 3 * 10 - 9), Point(9 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 2 * 10 - 9), Point(9 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(9 * 10 - 9, 1 * 10 - 9), Point(9 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 10 * 10 - 9), Point(8 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 9 * 10 - 9), Point(8 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 8 * 10 - 9), Point(8 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 7 * 10 - 9), Point(8 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 6 * 10 - 9), Point(8 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 5 * 10 - 9), Point(8 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 4 * 10 - 9), Point(8 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 3 * 10 - 9), Point(8 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 2 * 10 - 9), Point(8 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(8 * 10 - 9, 1 * 10 - 9), Point(8 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 10 * 10 - 9), Point(7 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 9 * 10 - 9), Point(7 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 8 * 10 - 9), Point(7 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 7 * 10 - 9), Point(7 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 6 * 10 - 9), Point(7 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 5 * 10 - 9), Point(7 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 4 * 10 - 9), Point(7 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 3 * 10 - 9), Point(7 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 2 * 10 - 9), Point(7 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(7 * 10 - 9, 1 * 10 - 9), Point(7 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 10 * 10 - 9), Point(6 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 9 * 10 - 9), Point(6 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 8 * 10 - 9), Point(6 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 7 * 10 - 9), Point(6 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 6 * 10 - 9), Point(6 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 5 * 10 - 9), Point(6 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 4 * 10 - 9), Point(6 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 3 * 10 - 9), Point(6 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 2 * 10 - 9), Point(6 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(6 * 10 - 9, 1 * 10 - 9), Point(6 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 10 * 10 - 9), Point(5 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 9 * 10 - 9), Point(5 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 8 * 10 - 9), Point(5 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 7 * 10 - 9), Point(5 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 6 * 10 - 9), Point(5 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 5 * 10 - 9), Point(5 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 4 * 10 - 9), Point(5 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 3 * 10 - 9), Point(5 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 2 * 10 - 9), Point(5 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(5 * 10 - 9, 1 * 10 - 9), Point(5 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 10 * 10 - 9), Point(4 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 9 * 10 - 9), Point(4 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 8 * 10 - 9), Point(4 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 7 * 10 - 9), Point(4 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 6 * 10 - 9), Point(4 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 5 * 10 - 9), Point(4 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 4 * 10 - 9), Point(4 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 3 * 10 - 9), Point(4 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 2 * 10 - 9), Point(4 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(4 * 10 - 9, 1 * 10 - 9), Point(4 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 10 * 10 - 9), Point(3 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 9 * 10 - 9), Point(3 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 8 * 10 - 9), Point(3 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 7 * 10 - 9), Point(3 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 6 * 10 - 9), Point(3 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 5 * 10 - 9), Point(3 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 4 * 10 - 9), Point(3 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 3 * 10 - 9), Point(3 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 2 * 10 - 9), Point(3 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(3 * 10 - 9, 1 * 10 - 9), Point(3 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 10 * 10 - 9), Point(2 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 9 * 10 - 9), Point(2 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 8 * 10 - 9), Point(2 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 7 * 10 - 9), Point(2 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 6 * 10 - 9), Point(2 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 5 * 10 - 9), Point(2 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 4 * 10 - 9), Point(2 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 3 * 10 - 9), Point(2 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 2 * 10 - 9), Point(2 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(2 * 10 - 9, 1 * 10 - 9), Point(2 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 10 * 10 - 9), Point(1 * 10, 10 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 9 * 10 - 9), Point(1 * 10, 9 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 8 * 10 - 9), Point(1 * 10, 8 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 7 * 10 - 9), Point(1 * 10, 7 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 6 * 10 - 9), Point(1 * 10, 6 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 5 * 10 - 9), Point(1 * 10, 5 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 4 * 10 - 9), Point(1 * 10, 4 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 3 * 10 - 9), Point(1 * 10, 3 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 2 * 10 - 9), Point(1 * 10, 2 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(Point(1 * 10 - 9, 1 * 10 - 9), Point(1 * 10, 1 * 10))));
SELECT count(*) FROM t2;
count(*)
100
DROP TABLE t2;

481
mysql-test/r/gis.result
View File

@ -66,7 +66,9 @@ INSERT INTO gis_multi_polygon VALUES
(119, MPolyFromWKB(AsWKB(MultiPolygon(Polygon(LineString(Point(0, 3), Point(3, 3), Point(3, 0), Point(0, 3)))))));
INSERT INTO gis_geometrycollection VALUES
(120, GeomCollFromText('GEOMETRYCOLLECTION(POINT(0 0), LINESTRING(0 0,10 10))')),
(121, GeometryFromWKB(AsWKB(GeometryCollection(Point(44, 6), LineString(Point(3, 6), Point(7, 9))))));
(121, GeometryFromWKB(AsWKB(GeometryCollection(Point(44, 6), LineString(Point(3, 6), Point(7, 9)))))),
(122, GeomFromText('GeometryCollection()')),
(123, GeomFromText('GeometryCollection EMPTY'));
INSERT into gis_geometry SELECT * FROM gis_point;
INSERT into gis_geometry SELECT * FROM gis_line;
INSERT into gis_geometry SELECT * FROM gis_polygon;
@ -109,6 +111,8 @@ SELECT fid, AsText(g) FROM gis_geometrycollection;
fid AsText(g)
120 GEOMETRYCOLLECTION(POINT(0 0),LINESTRING(0 0,10 10))
121 GEOMETRYCOLLECTION(POINT(44 6),LINESTRING(3 6,7 9))
122 GEOMETRYCOLLECTION EMPTY
123 GEOMETRYCOLLECTION EMPTY
SELECT fid, AsText(g) FROM gis_geometry;
fid AsText(g)
101 POINT(10 10)
@ -132,6 +136,8 @@ fid AsText(g)
119 MULTIPOLYGON(((0 3,3 3,3 0,0 3)))
120 GEOMETRYCOLLECTION(POINT(0 0),LINESTRING(0 0,10 10))
121 GEOMETRYCOLLECTION(POINT(44 6),LINESTRING(3 6,7 9))
122 GEOMETRYCOLLECTION EMPTY
123 GEOMETRYCOLLECTION EMPTY
SELECT fid, Dimension(g) FROM gis_geometry;
fid Dimension(g)
101 0
@ -155,6 +161,8 @@ fid Dimension(g)
119 2
120 1
121 1
122 0
123 0
SELECT fid, GeometryType(g) FROM gis_geometry;
fid GeometryType(g)
101 POINT
@ -178,6 +186,8 @@ fid GeometryType(g)
119 MULTIPOLYGON
120 GEOMETRYCOLLECTION
121 GEOMETRYCOLLECTION
122 GEOMETRYCOLLECTION
123 GEOMETRYCOLLECTION
SELECT fid, IsEmpty(g) FROM gis_geometry;
fid IsEmpty(g)
101 0
@ -201,6 +211,8 @@ fid IsEmpty(g)
119 0
120 0
121 0
122 0
123 0
SELECT fid, AsText(Envelope(g)) FROM gis_geometry;
fid AsText(Envelope(g))
101 POLYGON((10 10,10 10,10 10,10 10,10 10))
@ -224,11 +236,13 @@ fid AsText(Envelope(g))
119 POLYGON((0 0,3 0,3 3,0 3,0 0))
120 POLYGON((0 0,10 0,10 10,0 10,0 0))
121 POLYGON((3 6,44 6,44 9,3 9,3 6))
122 GEOMETRYCOLLECTION EMPTY
123 GEOMETRYCOLLECTION EMPTY
explain extended select Dimension(g), GeometryType(g), IsEmpty(g), AsText(Envelope(g)) from gis_geometry;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_geometry ALL NULL NULL NULL NULL 21 100.00
1 SIMPLE gis_geometry ALL NULL NULL NULL NULL 23 100.00
Warnings:
Note 1003 select dimension(`test`.`gis_geometry`.`g`) AS `Dimension(g)`,geometrytype(`test`.`gis_geometry`.`g`) AS `GeometryType(g)`,isempty(`test`.`gis_geometry`.`g`) AS `IsEmpty(g)`,astext(envelope(`test`.`gis_geometry`.`g`)) AS `AsText(Envelope(g))` from `test`.`gis_geometry`
Note 1003 select st_dimension(`test`.`gis_geometry`.`g`) AS `Dimension(g)`,st_geometrytype(`test`.`gis_geometry`.`g`) AS `GeometryType(g)`,st_isempty(`test`.`gis_geometry`.`g`) AS `IsEmpty(g)`,st_astext(st_envelope(`test`.`gis_geometry`.`g`)) AS `AsText(Envelope(g))` from `test`.`gis_geometry`
SELECT fid, X(g) FROM gis_point;
fid X(g)
101 10
@ -245,7 +259,7 @@ explain extended select X(g),Y(g) FROM gis_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_point ALL NULL NULL NULL NULL 4 100.00
Warnings:
Note 1003 select x(`test`.`gis_point`.`g`) AS `X(g)`,y(`test`.`gis_point`.`g`) AS `Y(g)` from `test`.`gis_point`
Note 1003 select st_x(`test`.`gis_point`.`g`) AS `X(g)`,st_y(`test`.`gis_point`.`g`) AS `Y(g)` from `test`.`gis_point`
SELECT fid, AsText(StartPoint(g)) FROM gis_line;
fid AsText(StartPoint(g))
105 POINT(0 0)
@ -280,7 +294,7 @@ explain extended select AsText(StartPoint(g)),AsText(EndPoint(g)),GLength(g),Num
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_line ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select astext(startpoint(`test`.`gis_line`.`g`)) AS `AsText(StartPoint(g))`,astext(endpoint(`test`.`gis_line`.`g`)) AS `AsText(EndPoint(g))`,glength(`test`.`gis_line`.`g`) AS `GLength(g)`,numpoints(`test`.`gis_line`.`g`) AS `NumPoints(g)`,astext(pointn(`test`.`gis_line`.`g`,2)) AS `AsText(PointN(g, 2))`,isclosed(`test`.`gis_line`.`g`) AS `IsClosed(g)` from `test`.`gis_line`
Note 1003 select st_astext(st_startpoint(`test`.`gis_line`.`g`)) AS `AsText(StartPoint(g))`,st_astext(st_endpoint(`test`.`gis_line`.`g`)) AS `AsText(EndPoint(g))`,st_length(`test`.`gis_line`.`g`) AS `GLength(g)`,st_numpoints(`test`.`gis_line`.`g`) AS `NumPoints(g)`,st_astext(st_pointn(`test`.`gis_line`.`g`,2)) AS `AsText(PointN(g, 2))`,st_isclosed(`test`.`gis_line`.`g`) AS `IsClosed(g)` from `test`.`gis_line`
SELECT fid, AsText(Centroid(g)) FROM gis_polygon;
fid AsText(Centroid(g))
108 POINT(15 15)
@ -310,7 +324,7 @@ explain extended select AsText(Centroid(g)),Area(g),AsText(ExteriorRing(g)),NumI
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_polygon ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select astext(centroid(`test`.`gis_polygon`.`g`)) AS `AsText(Centroid(g))`,area(`test`.`gis_polygon`.`g`) AS `Area(g)`,astext(exteriorring(`test`.`gis_polygon`.`g`)) AS `AsText(ExteriorRing(g))`,numinteriorrings(`test`.`gis_polygon`.`g`) AS `NumInteriorRings(g)`,astext(interiorringn(`test`.`gis_polygon`.`g`,1)) AS `AsText(InteriorRingN(g, 1))` from `test`.`gis_polygon`
Note 1003 select st_astext(st_centroid(`test`.`gis_polygon`.`g`)) AS `AsText(Centroid(g))`,st_area(`test`.`gis_polygon`.`g`) AS `Area(g)`,st_astext(st_exteriorring(`test`.`gis_polygon`.`g`)) AS `AsText(ExteriorRing(g))`,st_numinteriorrings(`test`.`gis_polygon`.`g`) AS `NumInteriorRings(g)`,st_astext(st_interiorringn(`test`.`gis_polygon`.`g`,1)) AS `AsText(InteriorRingN(g, 1))` from `test`.`gis_polygon`
SELECT fid, IsClosed(g) FROM gis_multi_line;
fid IsClosed(g)
114 0
@ -345,11 +359,13 @@ SELECT fid, NumGeometries(g) from gis_geometrycollection;
fid NumGeometries(g)
120 2
121 2
122 0
123 0
explain extended SELECT fid, NumGeometries(g) from gis_multi_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_multi_point ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,numgeometries(`test`.`gis_multi_point`.`g`) AS `NumGeometries(g)` from `test`.`gis_multi_point`
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,st_numgeometries(`test`.`gis_multi_point`.`g`) AS `NumGeometries(g)` from `test`.`gis_multi_point`
SELECT fid, AsText(GeometryN(g, 2)) from gis_multi_point;
fid AsText(GeometryN(g, 2))
111 POINT(10 10)
@ -369,35 +385,51 @@ SELECT fid, AsText(GeometryN(g, 2)) from gis_geometrycollection;
fid AsText(GeometryN(g, 2))
120 LINESTRING(0 0,10 10)
121 LINESTRING(3 6,7 9)
122 NULL
123 NULL
SELECT fid, AsText(GeometryN(g, 1)) from gis_geometrycollection;
fid AsText(GeometryN(g, 1))
120 POINT(0 0)
121 POINT(44 6)
122 NULL
123 NULL
explain extended SELECT fid, AsText(GeometryN(g, 2)) from gis_multi_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_multi_point ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,astext(geometryn(`test`.`gis_multi_point`.`g`,2)) AS `AsText(GeometryN(g, 2))` from `test`.`gis_multi_point`
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,st_astext(st_geometryn(`test`.`gis_multi_point`.`g`,2)) AS `AsText(GeometryN(g, 2))` from `test`.`gis_multi_point`
SELECT g1.fid as first, g2.fid as second,
Within(g1.g, g2.g) as w, Contains(g1.g, g2.g) as c, Overlaps(g1.g, g2.g) as o,
Equals(g1.g, g2.g) as e, Disjoint(g1.g, g2.g) as d, Touches(g1.g, g2.g) as t,
Intersects(g1.g, g2.g) as i, Crosses(g1.g, g2.g) as r
FROM gis_geometrycollection g1, gis_geometrycollection g2 ORDER BY first, second;
first second w c o e d t i r
120 120 1 1 0 1 0 0 1 0
120 120 1 1 0 1 0 1 1 0
120 121 0 0 1 0 0 0 1 0
120 122 0 1 NULL 0 NULL 0 NULL 0
120 123 0 1 NULL 0 NULL 0 NULL 0
121 120 0 0 1 0 0 0 1 0
121 121 1 1 0 1 0 0 1 0
121 121 1 1 0 1 0 1 1 0
121 122 0 1 NULL 0 NULL 0 NULL 0
121 123 0 1 NULL 0 NULL 0 NULL 0
122 120 1 0 NULL 0 NULL 0 NULL 0
122 121 1 0 NULL 0 NULL 0 NULL 0
122 122 1 1 NULL 1 NULL 0 NULL 0
122 123 1 1 NULL 1 NULL 0 NULL 0
123 120 1 0 NULL 0 NULL 0 NULL 0
123 121 1 0 NULL 0 NULL 0 NULL 0
123 122 1 1 NULL 1 NULL 0 NULL 0
123 123 1 1 NULL 1 NULL 0 NULL 0
explain extended SELECT g1.fid as first, g2.fid as second,
Within(g1.g, g2.g) as w, Contains(g1.g, g2.g) as c, Overlaps(g1.g, g2.g) as o,
Equals(g1.g, g2.g) as e, Disjoint(g1.g, g2.g) as d, Touches(g1.g, g2.g) as t,
Intersects(g1.g, g2.g) as i, Crosses(g1.g, g2.g) as r
FROM gis_geometrycollection g1, gis_geometrycollection g2 ORDER BY first, second;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE g1 ALL NULL NULL NULL NULL 2 100.00 Using temporary; Using filesort
1 SIMPLE g2 ALL NULL NULL NULL NULL 2 100.00 Using join buffer (flat, BNL join)
1 SIMPLE g1 ALL NULL NULL NULL NULL 4 100.00 Using temporary; Using filesort
1 SIMPLE g2 ALL NULL NULL NULL NULL 4 100.00 Using join buffer (flat, BNL join)
Warnings:
Note 1003 select `test`.`g1`.`fid` AS `first`,`test`.`g2`.`fid` AS `second`,within(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `w`,contains(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `c`,overlaps(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `o`,equals(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `e`,disjoint(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `d`,touches(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `t`,intersects(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `i`,crosses(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `r` from `test`.`gis_geometrycollection` `g1` join `test`.`gis_geometrycollection` `g2` order by `test`.`g1`.`fid`,`test`.`g2`.`fid`
Note 1003 select `test`.`g1`.`fid` AS `first`,`test`.`g2`.`fid` AS `second`,st_within(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `w`,st_contains(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `c`,mbroverlaps(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `o`,st_equals(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `e`,mbrdisjoint(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `d`,st_touches(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `t`,mbrintersects(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `i`,st_crosses(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `r` from `test`.`gis_geometrycollection` `g1` join `test`.`gis_geometrycollection` `g2` order by `test`.`g1`.`fid`,`test`.`g2`.`fid`
DROP TABLE gis_point, gis_line, gis_polygon, gis_multi_point, gis_multi_line, gis_multi_polygon, gis_geometrycollection, gis_geometry;
CREATE TABLE t1 (
gp point,
@ -439,12 +471,12 @@ explain extended SELECT AsText(GeometryFromWKB(AsWKB(GeometryFromText('POINT(1 4
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE NULL NULL NULL NULL NULL NULL NULL NULL No tables used
Warnings:
Note 1003 select astext(geometryfromwkb(aswkb(geometryfromtext('POINT(1 4)')))) AS `AsText(GeometryFromWKB(AsWKB(GeometryFromText('POINT(1 4)'))))`
Note 1003 select st_astext(st_geometryfromwkb(st_aswkb(st_geometryfromtext('POINT(1 4)')))) AS `AsText(GeometryFromWKB(AsWKB(GeometryFromText('POINT(1 4)'))))`
explain extended SELECT AsText(GeometryFromWKB(AsWKB(PointFromText('POINT(1 4)'))));
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE NULL NULL NULL NULL NULL NULL NULL NULL No tables used
Warnings:
Note 1003 select astext(geometryfromwkb(aswkb(geometryfromtext('POINT(1 4)')))) AS `AsText(GeometryFromWKB(AsWKB(PointFromText('POINT(1 4)'))))`
Note 1003 select st_astext(st_geometryfromwkb(st_aswkb(st_geometryfromtext('POINT(1 4)')))) AS `AsText(GeometryFromWKB(AsWKB(PointFromText('POINT(1 4)'))))`
SELECT SRID(GeomFromText('LineString(1 1,2 2)',101));
SRID(GeomFromText('LineString(1 1,2 2)',101))
101
@ -452,12 +484,12 @@ explain extended SELECT SRID(GeomFromText('LineString(1 1,2 2)',101));
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE NULL NULL NULL NULL NULL NULL NULL NULL No tables used
Warnings:
Note 1003 select srid(geometryfromtext('LineString(1 1,2 2)',101)) AS `SRID(GeomFromText('LineString(1 1,2 2)',101))`
Note 1003 select srid(st_geometryfromtext('LineString(1 1,2 2)',101)) AS `SRID(GeomFromText('LineString(1 1,2 2)',101))`
explain extended select issimple(MultiPoint(Point(3, 6), Point(4, 10))), issimple(Point(3, 6));
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE NULL NULL NULL NULL NULL NULL NULL NULL No tables used
Warnings:
Note 1003 select issimple(multipoint(point(3,6),point(4,10))) AS `issimple(MultiPoint(Point(3, 6), Point(4, 10)))`,issimple(point(3,6)) AS `issimple(Point(3, 6))`
Note 1003 select st_issimple(st_multipoint(st_point(3,6),st_point(4,10))) AS `issimple(MultiPoint(Point(3, 6), Point(4, 10)))`,st_issimple(st_point(3,6)) AS `issimple(Point(3, 6))`
create table t1 (a geometry not null);
insert into t1 values (GeomFromText('Point(1 2)'));
insert into t1 values ('Garbage');
@ -651,11 +683,11 @@ insert into t1 values ('85984',GeomFromText('MULTIPOLYGON(((-115.006363
select object_id, geometrytype(geo), ISSIMPLE(GEO), ASTEXT(centroid(geo)) from
t1 where object_id=85998;
object_id geometrytype(geo) ISSIMPLE(GEO) ASTEXT(centroid(geo))
85998 MULTIPOLYGON 0 POINT(115.318773152032 -36.2374728210215)
85998 MULTIPOLYGON 1 POINT(115.318773152032 -36.2374728210215)
select object_id, geometrytype(geo), ISSIMPLE(GEO), ASTEXT(centroid(geo)) from
t1 where object_id=85984;
object_id geometrytype(geo) ISSIMPLE(GEO) ASTEXT(centroid(geo))
85984 MULTIPOLYGON 0 POINT(-114.877871869233 36.3310176346905)
85984 MULTIPOLYGON 1 POINT(-114.877871869233 36.3310176346905)
drop table t1;
create table t1 (fl geometry not null);
insert into t1 values (1);
@ -802,17 +834,6 @@ create table t1 (g geometry not null);
insert into t1 values(default);
ERROR 22003: Cannot get geometry object from data you send to the GEOMETRY field
drop table t1;
CREATE TABLE t1 (a GEOMETRY);
CREATE VIEW v1 AS SELECT GeomFromwkb(ASBINARY(a)) FROM t1;
CREATE VIEW v2 AS SELECT a FROM t1;
DESCRIBE v1;
Field Type Null Key Default Extra
GeomFromwkb(ASBINARY(a)) geometry YES NULL
DESCRIBE v2;
Field Type Null Key Default Extra
a geometry YES NULL
DROP VIEW v1,v2;
DROP TABLE t1;
create table t1 (name VARCHAR(100), square GEOMETRY);
INSERT INTO t1 VALUES("center", GeomFromText('POLYGON (( 0 0, 0 2, 2 2, 2 0, 0 0))'));
INSERT INTO t1 VALUES("small", GeomFromText('POLYGON (( 0 0, 0 1, 1 1, 1 0, 0 0))'));
@ -846,7 +867,7 @@ mbroverlaps
down,left,right,up
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS mbrtouches FROM t1 a1 JOIN t1 a2 ON MBRTouches( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
mbrtouches
down2,left2,right2,up2
big,center,down,down2,left,left2,right,right2,small,up,up2
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS mbrwithin FROM t1 a1 JOIN t1 a2 ON MBRWithin( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
mbrwithin
big,center
@ -867,7 +888,7 @@ overlaps
down,left,right,up
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS touches FROM t1 a1 JOIN t1 a2 ON Touches( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
touches
down2,left2,right2,up2
big,center,down,down2,left,left2,right,right2,small,up,up2
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS within FROM t1 a1 JOIN t1 a2 ON Within( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
within
big,center
@ -1040,6 +1061,400 @@ drop table t1;
#
create table t1(a char(32) not null) engine=myisam;
create spatial index i on t1 (a);
ERROR HY000: Can't create table '#sql-temporary' (errno: 140)
ERROR 42000: A SPATIAL index may only contain a geometrical type column
drop table t1;
End of 5.1 tests
CREATE TABLE t1(
col0 BINARY NOT NULL,
col2 TIMESTAMP,
SPATIAL INDEX i1 (col0)
) ENGINE=MyISAM;
ERROR 42000: A SPATIAL index may only contain a geometrical type column
CREATE TABLE t1 (
col0 BINARY NOT NULL,
col2 TIMESTAMP
) ENGINE=MyISAM;
CREATE SPATIAL INDEX idx0 ON t1(col0);
ERROR 42000: A SPATIAL index may only contain a geometrical type column
ALTER TABLE t1 ADD SPATIAL INDEX i1 (col0);
ERROR 42000: A SPATIAL index may only contain a geometrical type column
CREATE TABLE t2 (
col0 INTEGER NOT NULL,
col1 POINT,
col2 POINT
);
CREATE SPATIAL INDEX idx0 ON t2 (col1, col2);
ERROR HY000: Incorrect arguments to SPATIAL INDEX
CREATE TABLE t3 (
col0 INTEGER NOT NULL,
col1 POINT,
col2 LINESTRING,
SPATIAL INDEX i1 (col1, col2)
);
ERROR HY000: Incorrect arguments to SPATIAL INDEX
DROP TABLE t1;
DROP TABLE t2;
select ST_AREA(ST_GEOMCOLLFROMTEXT(' GEOMETRYCOLLECTION(LINESTRING(100 100, 31 10, 77 80), POLYGON((0 0,4 7,1 1,0 0)), POINT(20 20))'));
ST_AREA(ST_GEOMCOLLFROMTEXT(' GEOMETRYCOLLECTION(LINESTRING(100 100, 31 10, 77 80), POLYGON((0 0,4 7,1 1,0 0)), POINT(20 20))'))
1.5
select ST_LENGTH(ST_GEOMCOLLFROMTEXT(' GEOMETRYCOLLECTION(LINESTRING(100 100, 100 30, 20 30), POINT(3 3), LINESTRING(20 20, 30 20))'));
ST_LENGTH(ST_GEOMCOLLFROMTEXT(' GEOMETRYCOLLECTION(LINESTRING(100 100, 100 30, 20 30), POINT(3 3), LINESTRING(20 20, 30 20))'))
160
DROP DATABASE IF EXISTS gis_ogs;
CREATE DATABASE gis_ogs;
USE gis_ogs;
#
# C.3.3.1 Geometry types and functions schema construction
#
CREATE TABLE lakes (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
shore POLYGON);
CREATE TABLE road_segments (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
aliases CHARACTER VARYING(64),
num_lanes INTEGER,
centerline LINESTRING);
CREATE TABLE divided_routes (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
num_lanes INTEGER,
centerlines MULTILINESTRING);
CREATE TABLE forests (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
boundary MULTIPOLYGON);
CREATE TABLE bridges (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
position POINT);
CREATE TABLE streams (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
centerline LINESTRING);
CREATE TABLE buildings (
fid INTEGER NOT NULL PRIMARY KEY,
address CHARACTER VARYING(64),
position POINT,
footprint POLYGON);
CREATE TABLE ponds (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
type CHARACTER VARYING(64),
shores MULTIPOLYGON);
CREATE TABLE named_places (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
boundary POLYGON);
CREATE TABLE map_neatlines (
fid INTEGER NOT NULL PRIMARY KEY,
neatline POLYGON);
#
# C.3.3.2 Geometry types and functions schema data loading
#
# Lakes
INSERT INTO lakes VALUES (
101, 'BLUE LAKE',
PolyFromText(
'POLYGON(
(52 18,66 23,73 9,48 6,52 18),
(59 18,67 18,67 13,59 13,59 18)
)',
101));
# Road Segments
INSERT INTO road_segments VALUES(102, 'Route 5', NULL, 2,
LineFromText(
'LINESTRING( 0 18, 10 21, 16 23, 28 26, 44 31 )' ,101));
INSERT INTO road_segments VALUES(103, 'Route 5', 'Main Street', 4,
LineFromText(
'LINESTRING( 44 31, 56 34, 70 38 )' ,101));
INSERT INTO road_segments VALUES(104, 'Route 5', NULL, 2,
LineFromText(
'LINESTRING( 70 38, 72 48 )' ,101));
INSERT INTO road_segments VALUES(105, 'Main Street', NULL, 4,
LineFromText(
'LINESTRING( 70 38, 84 42 )' ,101));
INSERT INTO road_segments VALUES(106, 'Dirt Road by Green Forest', NULL,
1,
LineFromText(
'LINESTRING( 28 26, 28 0 )',101));
# DividedRoutes
INSERT INTO divided_routes VALUES(119, 'Route 75', 4,
MLineFromText(
'MULTILINESTRING((10 48,10 21,10 0),
(16 0,16 23,16 48))', 101));
# Forests
INSERT INTO forests VALUES(109, 'Green Forest',
MPolyFromText(
'MULTIPOLYGON(((28 26,28 0,84 0,84 42,28 26),
(52 18,66 23,73 9,48 6,52 18)),((59 18,67 18,67 13,59 13,59 18)))',
101));
# Bridges
INSERT INTO bridges VALUES(110, 'Cam Bridge', PointFromText(
'POINT( 44 31 )', 101));
# Streams
INSERT INTO streams VALUES(111, 'Cam Stream',
LineFromText(
'LINESTRING( 38 48, 44 41, 41 36, 44 31, 52 18 )', 101));
INSERT INTO streams VALUES(112, NULL,
LineFromText(
'LINESTRING( 76 0, 78 4, 73 9 )', 101));
# Buildings
INSERT INTO buildings VALUES(113, '123 Main Street',
PointFromText(
'POINT( 52 30 )', 101),
PolyFromText(
'POLYGON( ( 50 31, 54 31, 54 29, 50 29, 50 31) )', 101));
INSERT INTO buildings VALUES(114, '215 Main Street',
PointFromText(
'POINT( 64 33 )', 101),
PolyFromText(
'POLYGON( ( 66 34, 62 34, 62 32, 66 32, 66 34) )', 101));
# Ponds
INSERT INTO ponds VALUES(120, NULL, 'Stock Pond',
MPolyFromText(
'MULTIPOLYGON( ( ( 24 44, 22 42, 24 40, 24 44) ),
( ( 26 44, 26 40, 28 42, 26 44) ) )', 101));
# Named Places
INSERT INTO named_places VALUES(117, 'Ashton',
PolyFromText(
'POLYGON( ( 62 48, 84 48, 84 30, 56 30, 56 34, 62 48) )', 101));
INSERT INTO named_places VALUES(118, 'Goose Island',
PolyFromText(
'POLYGON( ( 67 13, 67 18, 59 18, 59 13, 67 13) )', 101));
# Map Neatlines
INSERT INTO map_neatlines VALUES(115,
PolyFromText(
'POLYGON( ( 0 0, 0 48, 84 48, 84 0, 0 0 ) )', 101));
#
# C.3.3.3 Geometry types and functions schema test queries
# Conformance Item T6
SELECT Dimension(shore)
FROM lakes
WHERE name = 'Blue Lake';
Dimension(shore)
2
# Conformance Item T7
SELECT GeometryType(centerlines)
FROM divided_routes
WHERE name = 'Route 75';
GeometryType(centerlines)
MULTILINESTRING
# Conformance Item T8
SELECT AsText(boundary)
FROM named_places
WHERE name = 'Goose Island';
AsText(boundary)
POLYGON((67 13,67 18,59 18,59 13,67 13))
# Conformance Item T9
SELECT AsText(PolyFromWKB(AsBinary(boundary),101))
FROM named_places
WHERE name = 'Goose Island';
AsText(PolyFromWKB(AsBinary(boundary),101))
POLYGON((67 13,67 18,59 18,59 13,67 13))
# Conformance Item T10
SELECT SRID(boundary)
FROM named_places
WHERE name = 'Goose Island';
SRID(boundary)
101
# Conformance Item T11
SELECT IsEmpty(centerline)
FROM road_segments
WHERE name = 'Route 5'
AND aliases = 'Main Street';
IsEmpty(centerline)
0
# Conformance Item T14
SELECT AsText(Envelope(boundary))
FROM named_places
WHERE name = 'Goose Island';
AsText(Envelope(boundary))
POLYGON((59 13,67 13,67 18,59 18,59 13))
# Conformance Item T15
SELECT X(position)
FROM bridges
WHERE name = 'Cam Bridge';
X(position)
44
# Conformance Item T16
SELECT Y(position)
FROM bridges
WHERE name = 'Cam Bridge';
Y(position)
31
# Conformance Item T17
SELECT AsText(StartPoint(centerline))
FROM road_segments
WHERE fid = 102;
AsText(StartPoint(centerline))
POINT(0 18)
# Conformance Item T18
SELECT AsText(EndPoint(centerline))
FROM road_segments
WHERE fid = 102;
AsText(EndPoint(centerline))
POINT(44 31)
# Conformance Item T21
SELECT GLength(centerline)
FROM road_segments
WHERE fid = 106;
GLength(centerline)
26
# Conformance Item T22
SELECT NumPoints(centerline)
FROM road_segments
WHERE fid = 102;
NumPoints(centerline)
5
# Conformance Item T23
SELECT AsText(PointN(centerline, 1))
FROM road_segments
WHERE fid = 102;
AsText(PointN(centerline, 1))
POINT(0 18)
# Conformance Item T24
SELECT AsText(Centroid(boundary))
FROM named_places
WHERE name = 'Goose Island';
AsText(Centroid(boundary))
POINT(63 15.5)
# Conformance Item T26
SELECT Area(boundary)
FROM named_places
WHERE name = 'Goose Island';
Area(boundary)
40
# Conformance Item T27
SELECT AsText(ExteriorRing(shore))
FROM lakes
WHERE name = 'Blue Lake';
AsText(ExteriorRing(shore))
LINESTRING(52 18,66 23,73 9,48 6,52 18)
# Conformance Item T28
SELECT NumInteriorRings(shore)
FROM lakes
WHERE name = 'Blue Lake';
NumInteriorRings(shore)
1
# Conformance Item T29
SELECT AsText(InteriorRingN(shore, 1))
FROM lakes
WHERE name = 'Blue Lake';
AsText(InteriorRingN(shore, 1))
LINESTRING(59 18,67 18,67 13,59 13,59 18)
# Conformance Item T30
SELECT NumGeometries(centerlines)
FROM divided_routes
WHERE name = 'Route 75';
NumGeometries(centerlines)
2
# Conformance Item T31
SELECT AsText(GeometryN(centerlines, 2))
FROM divided_routes
WHERE name = 'Route 75';
AsText(GeometryN(centerlines, 2))
LINESTRING(16 0,16 23,16 48)
# Conformance Item T32
SELECT IsClosed(centerlines)
FROM divided_routes
WHERE name = 'Route 75';
IsClosed(centerlines)
0
# Conformance Item T33
SELECT GLength(centerlines)
FROM divided_routes
WHERE name = 'Route 75';
GLength(centerlines)
96
# Conformance Item T34
SELECT AsText(Centroid(shores))
FROM ponds
WHERE fid = 120;
AsText(Centroid(shores))
POINT(25 42)
# Conformance Item T36
SELECT Area(shores)
FROM ponds
WHERE fid = 120;
Area(shores)
8
# Conformance Item T37
SELECT ST_Equals(boundary,
PolyFromText('POLYGON( ( 67 13, 67 18, 59 18, 59 13, 67 13) )',1))
FROM named_places
WHERE name = 'Goose Island';
ST_Equals(boundary,
PolyFromText('POLYGON( ( 67 13, 67 18, 59 18, 59 13, 67 13) )',1))
1
# Conformance Item T38
SELECT ST_Disjoint(centerlines, boundary)
FROM divided_routes, named_places
WHERE divided_routes.name = 'Route 75'
AND named_places.name = 'Ashton';
ST_Disjoint(centerlines, boundary)
1
# Conformance Item T39
SELECT ST_Touches(centerline, shore)
FROM streams, lakes
WHERE streams.name = 'Cam Stream'
AND lakes.name = 'Blue Lake';
ST_Touches(centerline, shore)
1
# Conformance Item T42
SELECT Crosses(road_segments.centerline, divided_routes.centerlines)
FROM road_segments, divided_routes
WHERE road_segments.fid = 102
AND divided_routes.name = 'Route 75';
Crosses(road_segments.centerline, divided_routes.centerlines)
1
# Conformance Item T43
SELECT ST_Intersects(road_segments.centerline, divided_routes.centerlines)
FROM road_segments, divided_routes
WHERE road_segments.fid = 102
AND divided_routes.name = 'Route 75';
ST_Intersects(road_segments.centerline, divided_routes.centerlines)
1
# Conformance Item T44
SELECT ST_Contains(forests.boundary, named_places.boundary)
FROM forests, named_places
WHERE forests.name = 'Green Forest'
AND named_places.name = 'Ashton';
ST_Contains(forests.boundary, named_places.boundary)
0
# Conformance Item T46
SELECT ST_Distance(position, boundary)
FROM bridges, named_places
WHERE bridges.name = 'Cam Bridge'
AND named_places.name = 'Ashton';
ST_Distance(position, boundary)
12
# Conformance Item T48
SELECT AsText(ST_Difference(named_places.boundary, forests.boundary))
FROM named_places, forests
WHERE named_places.name = 'Ashton'
AND forests.name = 'Green Forest';
AsText(ST_Difference(named_places.boundary, forests.boundary))
POLYGON((56 34,62 48,84 48,84 42,56 34))
SELECT AsText(ST_Union(shore, boundary))
FROM lakes, named_places
WHERE lakes.name = 'Blue Lake'
AND named_places.name = 'Goose Island';
AsText(ST_Union(shore, boundary))
POLYGON((48 6,52 18,66 23,73 9,48 6))
# Conformance Item T50
SELECT AsText(ST_SymDifference(shore, boundary))
FROM lakes, named_places
WHERE lakes.name = 'Blue Lake'
AND named_places.name = 'Ashton';
AsText(ST_SymDifference(shore, boundary))
MULTIPOLYGON(((48 6,52 18,66 23,73 9,48 6),(59 13,59 18,67 18,67 13,59 13)),((56 30,56 34,62 48,84 48,84 30,56 30)))
# Conformance Item T51
SELECT count(*)
FROM buildings, bridges
WHERE ST_Contains(ST_Buffer(bridges.position, 15.0), buildings.footprint) = 1;
count(*)
1
DROP DATABASE gis_ogs;

22
mysql-test/suite/innodb/r/innodb_gis.result
View File

@ -236,7 +236,7 @@ explain extended select Dimension(g), GeometryType(g), IsEmpty(g), AsText(Envelo
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_geometry ALL NULL NULL NULL NULL 21 100.00
Warnings:
Note 1003 select dimension(`test`.`gis_geometry`.`g`) AS `Dimension(g)`,geometrytype(`test`.`gis_geometry`.`g`) AS `GeometryType(g)`,isempty(`test`.`gis_geometry`.`g`) AS `IsEmpty(g)`,astext(envelope(`test`.`gis_geometry`.`g`)) AS `AsText(Envelope(g))` from `test`.`gis_geometry`
Note 1003 select st_dimension(`test`.`gis_geometry`.`g`) AS `Dimension(g)`,st_geometrytype(`test`.`gis_geometry`.`g`) AS `GeometryType(g)`,st_isempty(`test`.`gis_geometry`.`g`) AS `IsEmpty(g)`,st_astext(st_envelope(`test`.`gis_geometry`.`g`)) AS `AsText(Envelope(g))` from `test`.`gis_geometry`
SELECT fid, X(g) FROM gis_point ORDER by fid;
fid X(g)
101 10
@ -253,7 +253,7 @@ explain extended select X(g),Y(g) FROM gis_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_point ALL NULL NULL NULL NULL 4 100.00
Warnings:
Note 1003 select x(`test`.`gis_point`.`g`) AS `X(g)`,y(`test`.`gis_point`.`g`) AS `Y(g)` from `test`.`gis_point`
Note 1003 select st_x(`test`.`gis_point`.`g`) AS `X(g)`,st_y(`test`.`gis_point`.`g`) AS `Y(g)` from `test`.`gis_point`
SELECT fid, AsText(StartPoint(g)) FROM gis_line ORDER by fid;
fid AsText(StartPoint(g))
105 POINT(0 0)
@ -288,7 +288,7 @@ explain extended select AsText(StartPoint(g)),AsText(EndPoint(g)),GLength(g),Num
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_line ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select astext(startpoint(`test`.`gis_line`.`g`)) AS `AsText(StartPoint(g))`,astext(endpoint(`test`.`gis_line`.`g`)) AS `AsText(EndPoint(g))`,glength(`test`.`gis_line`.`g`) AS `GLength(g)`,numpoints(`test`.`gis_line`.`g`) AS `NumPoints(g)`,astext(pointn(`test`.`gis_line`.`g`,2)) AS `AsText(PointN(g, 2))`,isclosed(`test`.`gis_line`.`g`) AS `IsClosed(g)` from `test`.`gis_line`
Note 1003 select st_astext(st_startpoint(`test`.`gis_line`.`g`)) AS `AsText(StartPoint(g))`,st_astext(st_endpoint(`test`.`gis_line`.`g`)) AS `AsText(EndPoint(g))`,st_length(`test`.`gis_line`.`g`) AS `GLength(g)`,st_numpoints(`test`.`gis_line`.`g`) AS `NumPoints(g)`,st_astext(st_pointn(`test`.`gis_line`.`g`,2)) AS `AsText(PointN(g, 2))`,st_isclosed(`test`.`gis_line`.`g`) AS `IsClosed(g)` from `test`.`gis_line`
SELECT fid, AsText(Centroid(g)) FROM gis_polygon ORDER by fid;
fid AsText(Centroid(g))
108 POINT(15 15)
@ -318,7 +318,7 @@ explain extended select AsText(Centroid(g)),Area(g),AsText(ExteriorRing(g)),NumI
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_polygon ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select astext(centroid(`test`.`gis_polygon`.`g`)) AS `AsText(Centroid(g))`,area(`test`.`gis_polygon`.`g`) AS `Area(g)`,astext(exteriorring(`test`.`gis_polygon`.`g`)) AS `AsText(ExteriorRing(g))`,numinteriorrings(`test`.`gis_polygon`.`g`) AS `NumInteriorRings(g)`,astext(interiorringn(`test`.`gis_polygon`.`g`,1)) AS `AsText(InteriorRingN(g, 1))` from `test`.`gis_polygon`
Note 1003 select st_astext(st_centroid(`test`.`gis_polygon`.`g`)) AS `AsText(Centroid(g))`,st_area(`test`.`gis_polygon`.`g`) AS `Area(g)`,st_astext(st_exteriorring(`test`.`gis_polygon`.`g`)) AS `AsText(ExteriorRing(g))`,st_numinteriorrings(`test`.`gis_polygon`.`g`) AS `NumInteriorRings(g)`,st_astext(st_interiorringn(`test`.`gis_polygon`.`g`,1)) AS `AsText(InteriorRingN(g, 1))` from `test`.`gis_polygon`
SELECT fid, IsClosed(g) FROM gis_multi_line ORDER by fid;
fid IsClosed(g)
114 0
@ -357,7 +357,7 @@ explain extended SELECT fid, NumGeometries(g) from gis_multi_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_multi_point ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,numgeometries(`test`.`gis_multi_point`.`g`) AS `NumGeometries(g)` from `test`.`gis_multi_point`
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,st_numgeometries(`test`.`gis_multi_point`.`g`) AS `NumGeometries(g)` from `test`.`gis_multi_point`
SELECT fid, AsText(GeometryN(g, 2)) from gis_multi_point ORDER by fid;
fid AsText(GeometryN(g, 2))
111 POINT(10 10)
@ -385,17 +385,17 @@ explain extended SELECT fid, AsText(GeometryN(g, 2)) from gis_multi_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_multi_point ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,astext(geometryn(`test`.`gis_multi_point`.`g`,2)) AS `AsText(GeometryN(g, 2))` from `test`.`gis_multi_point`
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,st_astext(st_geometryn(`test`.`gis_multi_point`.`g`,2)) AS `AsText(GeometryN(g, 2))` from `test`.`gis_multi_point`
SELECT g1.fid as first, g2.fid as second,
Within(g1.g, g2.g) as w, Contains(g1.g, g2.g) as c, Overlaps(g1.g, g2.g) as o,
Equals(g1.g, g2.g) as e, Disjoint(g1.g, g2.g) as d, Touches(g1.g, g2.g) as t,
Intersects(g1.g, g2.g) as i, Crosses(g1.g, g2.g) as r
FROM gis_geometrycollection g1, gis_geometrycollection g2 ORDER BY first, second;
first second w c o e d t i r
120 120 1 1 0 1 0 0 1 0
120 120 1 1 0 1 0 1 1 1
120 121 0 0 1 0 0 0 1 0
121 120 0 0 1 0 0 0 1 0
121 121 1 1 0 1 0 0 1 0
121 121 1 1 0 1 0 1 1 1
explain extended SELECT g1.fid as first, g2.fid as second,
Within(g1.g, g2.g) as w, Contains(g1.g, g2.g) as c, Overlaps(g1.g, g2.g) as o,
Equals(g1.g, g2.g) as e, Disjoint(g1.g, g2.g) as d, Touches(g1.g, g2.g) as t,
@ -405,7 +405,7 @@ id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE g1 ALL NULL NULL NULL NULL 2 100.00 Using temporary; Using filesort
1 SIMPLE g2 ALL NULL NULL NULL NULL 2 100.00 Using join buffer (flat, BNL join)
Warnings:
Note 1003 select `test`.`g1`.`fid` AS `first`,`test`.`g2`.`fid` AS `second`,within(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `w`,contains(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `c`,overlaps(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `o`,equals(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `e`,disjoint(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `d`,touches(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `t`,intersects(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `i`,crosses(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `r` from `test`.`gis_geometrycollection` `g1` join `test`.`gis_geometrycollection` `g2` order by `test`.`g1`.`fid`,`test`.`g2`.`fid`
Note 1003 select `test`.`g1`.`fid` AS `first`,`test`.`g2`.`fid` AS `second`,st_within(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `w`,st_contains(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `c`,mbroverlaps(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `o`,mbrequals(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `e`,mbrdisjoint(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `d`,st_touches(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `t`,mbrintersects(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `i`,st_crosses(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `r` from `test`.`gis_geometrycollection` `g1` join `test`.`gis_geometrycollection` `g2` order by `test`.`g1`.`fid`,`test`.`g2`.`fid`
DROP TABLE gis_point, gis_line, gis_polygon, gis_multi_point, gis_multi_line, gis_multi_polygon, gis_geometrycollection, gis_geometry;
CREATE TABLE t1 (
a INTEGER PRIMARY KEY AUTO_INCREMENT,
@ -494,7 +494,7 @@ mbroverlaps
down,left,right,up
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS mbrtouches FROM t1 a1 JOIN t1 a2 ON MBRTouches( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
mbrtouches
down2,left2,right2,up2
big,center,down,down2,left,left2,right,right2,small,up,up2
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS mbrwithin FROM t1 a1 JOIN t1 a2 ON MBRWithin( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
mbrwithin
big,center
@ -515,7 +515,7 @@ overlaps
down,left,right,up
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS touches FROM t1 a1 JOIN t1 a2 ON Touches( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
touches
down2,left2,right2,up2
big,center,down,down2,left,left2,right,right2,small,up,up2
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS within FROM t1 a1 JOIN t1 a2 ON Within( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
within
big,center

22
mysql-test/suite/innodb_plugin/r/innodb_gis.result
View File

@ -236,7 +236,7 @@ explain extended select Dimension(g), GeometryType(g), IsEmpty(g), AsText(Envelo
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_geometry ALL NULL NULL NULL NULL 21 100.00
Warnings:
Note 1003 select dimension(`test`.`gis_geometry`.`g`) AS `Dimension(g)`,geometrytype(`test`.`gis_geometry`.`g`) AS `GeometryType(g)`,isempty(`test`.`gis_geometry`.`g`) AS `IsEmpty(g)`,astext(envelope(`test`.`gis_geometry`.`g`)) AS `AsText(Envelope(g))` from `test`.`gis_geometry`
Note 1003 select st_dimension(`test`.`gis_geometry`.`g`) AS `Dimension(g)`,st_geometrytype(`test`.`gis_geometry`.`g`) AS `GeometryType(g)`,st_isempty(`test`.`gis_geometry`.`g`) AS `IsEmpty(g)`,st_astext(st_envelope(`test`.`gis_geometry`.`g`)) AS `AsText(Envelope(g))` from `test`.`gis_geometry`
SELECT fid, X(g) FROM gis_point ORDER by fid;
fid X(g)
101 10
@ -253,7 +253,7 @@ explain extended select X(g),Y(g) FROM gis_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_point ALL NULL NULL NULL NULL 4 100.00
Warnings:
Note 1003 select x(`test`.`gis_point`.`g`) AS `X(g)`,y(`test`.`gis_point`.`g`) AS `Y(g)` from `test`.`gis_point`
Note 1003 select st_x(`test`.`gis_point`.`g`) AS `X(g)`,st_y(`test`.`gis_point`.`g`) AS `Y(g)` from `test`.`gis_point`
SELECT fid, AsText(StartPoint(g)) FROM gis_line ORDER by fid;
fid AsText(StartPoint(g))
105 POINT(0 0)
@ -288,7 +288,7 @@ explain extended select AsText(StartPoint(g)),AsText(EndPoint(g)),GLength(g),Num
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_line ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select astext(startpoint(`test`.`gis_line`.`g`)) AS `AsText(StartPoint(g))`,astext(endpoint(`test`.`gis_line`.`g`)) AS `AsText(EndPoint(g))`,glength(`test`.`gis_line`.`g`) AS `GLength(g)`,numpoints(`test`.`gis_line`.`g`) AS `NumPoints(g)`,astext(pointn(`test`.`gis_line`.`g`,2)) AS `AsText(PointN(g, 2))`,isclosed(`test`.`gis_line`.`g`) AS `IsClosed(g)` from `test`.`gis_line`
Note 1003 select st_astext(st_startpoint(`test`.`gis_line`.`g`)) AS `AsText(StartPoint(g))`,st_astext(st_endpoint(`test`.`gis_line`.`g`)) AS `AsText(EndPoint(g))`,st_length(`test`.`gis_line`.`g`) AS `GLength(g)`,st_numpoints(`test`.`gis_line`.`g`) AS `NumPoints(g)`,st_astext(st_pointn(`test`.`gis_line`.`g`,2)) AS `AsText(PointN(g, 2))`,st_isclosed(`test`.`gis_line`.`g`) AS `IsClosed(g)` from `test`.`gis_line`
SELECT fid, AsText(Centroid(g)) FROM gis_polygon ORDER by fid;
fid AsText(Centroid(g))
108 POINT(15 15)
@ -318,7 +318,7 @@ explain extended select AsText(Centroid(g)),Area(g),AsText(ExteriorRing(g)),NumI
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_polygon ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select astext(centroid(`test`.`gis_polygon`.`g`)) AS `AsText(Centroid(g))`,area(`test`.`gis_polygon`.`g`) AS `Area(g)`,astext(exteriorring(`test`.`gis_polygon`.`g`)) AS `AsText(ExteriorRing(g))`,numinteriorrings(`test`.`gis_polygon`.`g`) AS `NumInteriorRings(g)`,astext(interiorringn(`test`.`gis_polygon`.`g`,1)) AS `AsText(InteriorRingN(g, 1))` from `test`.`gis_polygon`
Note 1003 select st_astext(st_centroid(`test`.`gis_polygon`.`g`)) AS `AsText(Centroid(g))`,st_area(`test`.`gis_polygon`.`g`) AS `Area(g)`,st_astext(st_exteriorring(`test`.`gis_polygon`.`g`)) AS `AsText(ExteriorRing(g))`,st_numinteriorrings(`test`.`gis_polygon`.`g`) AS `NumInteriorRings(g)`,st_astext(st_interiorringn(`test`.`gis_polygon`.`g`,1)) AS `AsText(InteriorRingN(g, 1))` from `test`.`gis_polygon`
SELECT fid, IsClosed(g) FROM gis_multi_line ORDER by fid;
fid IsClosed(g)
114 0
@ -357,7 +357,7 @@ explain extended SELECT fid, NumGeometries(g) from gis_multi_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_multi_point ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,numgeometries(`test`.`gis_multi_point`.`g`) AS `NumGeometries(g)` from `test`.`gis_multi_point`
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,st_numgeometries(`test`.`gis_multi_point`.`g`) AS `NumGeometries(g)` from `test`.`gis_multi_point`
SELECT fid, AsText(GeometryN(g, 2)) from gis_multi_point ORDER by fid;
fid AsText(GeometryN(g, 2))
111 POINT(10 10)
@ -385,17 +385,17 @@ explain extended SELECT fid, AsText(GeometryN(g, 2)) from gis_multi_point;
id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE gis_multi_point ALL NULL NULL NULL NULL 3 100.00
Warnings:
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,astext(geometryn(`test`.`gis_multi_point`.`g`,2)) AS `AsText(GeometryN(g, 2))` from `test`.`gis_multi_point`
Note 1003 select `test`.`gis_multi_point`.`fid` AS `fid`,st_astext(st_geometryn(`test`.`gis_multi_point`.`g`,2)) AS `AsText(GeometryN(g, 2))` from `test`.`gis_multi_point`
SELECT g1.fid as first, g2.fid as second,
Within(g1.g, g2.g) as w, Contains(g1.g, g2.g) as c, Overlaps(g1.g, g2.g) as o,
Equals(g1.g, g2.g) as e, Disjoint(g1.g, g2.g) as d, Touches(g1.g, g2.g) as t,
Intersects(g1.g, g2.g) as i, Crosses(g1.g, g2.g) as r
FROM gis_geometrycollection g1, gis_geometrycollection g2 ORDER BY first, second;
first second w c o e d t i r
120 120 1 1 0 1 0 0 1 0
120 120 1 1 0 1 0 1 1 1
120 121 0 0 1 0 0 0 1 0
121 120 0 0 1 0 0 0 1 0
121 121 1 1 0 1 0 0 1 0
121 121 1 1 0 1 0 1 1 1
explain extended SELECT g1.fid as first, g2.fid as second,
Within(g1.g, g2.g) as w, Contains(g1.g, g2.g) as c, Overlaps(g1.g, g2.g) as o,
Equals(g1.g, g2.g) as e, Disjoint(g1.g, g2.g) as d, Touches(g1.g, g2.g) as t,
@ -405,7 +405,7 @@ id select_type table type possible_keys key key_len ref rows filtered Extra
1 SIMPLE g1 ALL NULL NULL NULL NULL 2 100.00 Using temporary; Using filesort
1 SIMPLE g2 ALL NULL NULL NULL NULL 2 100.00 Using join buffer (flat, BNL join)
Warnings:
Note 1003 select `test`.`g1`.`fid` AS `first`,`test`.`g2`.`fid` AS `second`,within(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `w`,contains(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `c`,overlaps(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `o`,equals(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `e`,disjoint(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `d`,touches(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `t`,intersects(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `i`,crosses(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `r` from `test`.`gis_geometrycollection` `g1` join `test`.`gis_geometrycollection` `g2` order by `test`.`g1`.`fid`,`test`.`g2`.`fid`
Note 1003 select `test`.`g1`.`fid` AS `first`,`test`.`g2`.`fid` AS `second`,st_within(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `w`,st_contains(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `c`,mbroverlaps(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `o`,mbrequals(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `e`,mbrdisjoint(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `d`,st_touches(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `t`,mbrintersects(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `i`,st_crosses(`test`.`g1`.`g`,`test`.`g2`.`g`) AS `r` from `test`.`gis_geometrycollection` `g1` join `test`.`gis_geometrycollection` `g2` order by `test`.`g1`.`fid`,`test`.`g2`.`fid`
DROP TABLE gis_point, gis_line, gis_polygon, gis_multi_point, gis_multi_line, gis_multi_polygon, gis_geometrycollection, gis_geometry;
CREATE TABLE t1 (
a INTEGER PRIMARY KEY AUTO_INCREMENT,
@ -494,7 +494,7 @@ mbroverlaps
down,left,right,up
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS mbrtouches FROM t1 a1 JOIN t1 a2 ON MBRTouches( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
mbrtouches
down2,left2,right2,up2
big,center,down,down2,left,left2,right,right2,small,up,up2
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS mbrwithin FROM t1 a1 JOIN t1 a2 ON MBRWithin( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
mbrwithin
big,center
@ -515,7 +515,7 @@ overlaps
down,left,right,up
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS touches FROM t1 a1 JOIN t1 a2 ON Touches( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
touches
down2,left2,right2,up2
big,center,down,down2,left,left2,right,right2,small,up,up2
SELECT GROUP_CONCAT(a2.name ORDER BY a2.name) AS within FROM t1 a1 JOIN t1 a2 ON Within( a1.square, a2.square) WHERE a1.name = "center" GROUP BY a1.name;
within
big,center

8
mysql-test/suite/maria/r/maria-gis-rtree-dynamic.result
View File

@ -168,7 +168,7 @@ count(*)
150
EXPLAIN SELECT fid, AsText(g) FROM t1 WHERE Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 range g g 34 NULL 11 Using where
1 SIMPLE t1 ALL g NULL NULL NULL 150 Using where
SELECT fid, AsText(g) FROM t1 WHERE Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
fid AsText(g)
1 LINESTRING(150 150,150 150)
@ -302,14 +302,10 @@ count(*)
EXPLAIN SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t2 range g g 34 NULL 4 Using where
1 SIMPLE t2 range g g 34 NULL 1 Using where
SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
fid AsText(g)
45 LINESTRING(51 51,60 60)
46 LINESTRING(51 41,60 50)
55 LINESTRING(41 51,50 60)
56 LINESTRING(41 41,50 50)
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(LineString(Point(10 * 10 - 9, 10 * 10 - 9), Point(10 * 10, 10 * 10)))));
SELECT count(*) FROM t2;
count(*)

8
mysql-test/suite/maria/r/maria-gis-rtree-trans.result
View File

@ -168,7 +168,7 @@ count(*)
150
EXPLAIN SELECT fid, AsText(g) FROM t1 WHERE Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 range g g 34 NULL 11 Using where
1 SIMPLE t1 ALL g NULL NULL NULL 150 Using where
SELECT fid, AsText(g) FROM t1 WHERE Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
fid AsText(g)
1 LINESTRING(150 150,150 150)
@ -302,14 +302,10 @@ count(*)
EXPLAIN SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t2 range g g 34 NULL 4 Using where
1 SIMPLE t2 range g g 34 NULL 1 Using where
SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
fid AsText(g)
45 LINESTRING(51 51,60 60)
46 LINESTRING(51 41,60 50)
55 LINESTRING(41 51,50 60)
56 LINESTRING(41 41,50 50)
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(LineString(Point(10 * 10 - 9, 10 * 10 - 9), Point(10 * 10, 10 * 10)))));
SELECT count(*) FROM t2;
count(*)

8
mysql-test/suite/maria/r/maria-gis-rtree.result
View File

@ -168,7 +168,7 @@ count(*)
150
EXPLAIN SELECT fid, AsText(g) FROM t1 WHERE Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t1 range g g 34 NULL 11 Using where
1 SIMPLE t1 ALL g NULL NULL NULL 150 Using where
SELECT fid, AsText(g) FROM t1 WHERE Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
fid AsText(g)
1 LINESTRING(150 150,150 150)
@ -302,14 +302,10 @@ count(*)
EXPLAIN SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
id select_type table type possible_keys key key_len ref rows Extra
1 SIMPLE t2 range g g 34 NULL 4 Using where
1 SIMPLE t2 range g g 34 NULL 1 Using where
SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
fid AsText(g)
45 LINESTRING(51 51,60 60)
46 LINESTRING(51 41,60 50)
55 LINESTRING(41 51,50 60)
56 LINESTRING(41 41,50 50)
DELETE FROM t2 WHERE Within(g, Envelope(GeometryFromWKB(LineString(Point(10 * 10 - 9, 10 * 10 - 9), Point(10 * 10, 10 * 10)))));
SELECT count(*) FROM t2;
count(*)

4
mysql-test/suite/vcol/inc/vcol_keys.inc
View File

@ -95,10 +95,10 @@ drop table t1;
if (!$skip_spatial_index_check)
{
--echo # Error "All parts of a SPATIAL index must be NOT NULL"
--error ER_SPATIAL_CANT_HAVE_NULL
--error ER_SPATIAL_MUST_HAVE_GEOM_COL
create table t1 (a int, b int as (a+1) persistent, spatial index (b));
create table t1 (a int, b int as (a+1) persistent);
--error ER_SPATIAL_CANT_HAVE_NULL
--error ER_SPATIAL_MUST_HAVE_GEOM_COL
alter table t1 add spatial index (b);
drop table t1;
}

4
mysql-test/suite/vcol/r/vcol_keys_myisam.result
View File

@ -101,10 +101,10 @@ drop table t1;
# SPATIAL INDEX
# Error "All parts of a SPATIAL index must be NOT NULL"
create table t1 (a int, b int as (a+1) persistent, spatial index (b));
ERROR 42000: All parts of a SPATIAL index must be NOT NULL
ERROR 42000: A SPATIAL index may only contain a geometrical type column
create table t1 (a int, b int as (a+1) persistent);
alter table t1 add spatial index (b);
ERROR 42000: All parts of a SPATIAL index must be NOT NULL
ERROR 42000: A SPATIAL index may only contain a geometrical type column
drop table t1;
# FOREIGN KEY
# Rejected FK options.

312
mysql-test/t/gis-precise.test Normal file
View File

@ -0,0 +1,312 @@
-- source include/have_geometry.inc
#
# Spatial objects
#
--disable_warnings
DROP TABLE IF EXISTS t1;
--enable_warnings
select 1, ST_Intersects(GeomFromText('POLYGON((0 0,20 0,20 20,0 20,0 0))'), GeomFromText('POLYGON((10 10,30 10,30 30,10 30,10 10))'));
select 0, ST_Intersects(GeomFromText('POLYGON((0 0,20 10,10 30, 0 0))'), GeomFromText('POLYGON((10 40, 40 50, 20 70, 10 40))'));
select 1, ST_Intersects(GeomFromText('POLYGON((0 0,20 10,10 30, 0 0))'), GeomFromText('POINT(10 10)'));
select 1, ST_Intersects(GeomFromText('POLYGON((0 0,20 10,10 30, 0 0))'), GeomFromText('POLYGON((10 10,30 20,20 40, 10 10))'));
select 0, ST_Within(GeomFromText('POLYGON((0 0,20 10,10 30, 0 0))'), GeomFromText('POLYGON((10 10,30 20,20 40, 10 10))'));
select 1, ST_Within(GeomFromText('POLYGON((1 1,20 10,10 30, 1 1))'), GeomFromText('POLYGON((0 0,30 5,10 40, 0 0))'));
create table t1 (g point);
insert into t1 values
(GeomFromText('POINT(2 2)')), (GeomFromText('POINT(2 4)')), (GeomFromText('POINT(2 6)')), (GeomFromText('POINT(2 8)')),
(GeomFromText('POINT(4 2)')), (GeomFromText('POINT(4 4)')), (GeomFromText('POINT(4 6)')), (GeomFromText('POINT(4 8)')),
(GeomFromText('POINT(6 2)')), (GeomFromText('POINT(6 4)')), (GeomFromText('POINT(6 6)')), (GeomFromText('POINT(6 8)')),
(GeomFromText('POINT(8 2)')), (GeomFromText('POINT(8 4)')), (GeomFromText('POINT(8 6)')), (GeomFromText('POINT(8 8)'));
select astext(g) from t1 where ST_Within(g, GeomFromText('POLYGON((5 1, 7 1, 7 7, 5 7, 3 3, 5 3, 5 1))'));
select 'Contains';
select astext(g) from t1 where ST_Contains(GeomFromText('POLYGON((5 1, 7 1, 7 7, 5 7, 3 3, 5 3, 5 1))'), g);
select 'Intersects';
select astext(g) from t1 where ST_Intersects(GeomFromText('POLYGON((5 1, 7 1, 7 7, 5 7, 3 3, 5 3, 5 1))'), g);
select 'Contains';
select astext(g) from t1 where ST_Contains(GeomFromText('POLYGON((5 1, 7 1, 7 7, 5 7, 3 3, 5 3, 5 1))'), g);
select 'Contains2';
select astext(g) from t1 where ST_Contains(GeomFromText('POLYGON((5 1, 7 1, 7 7, 5 7, 3 3, 5 3, 5 1), (5.01 3.01, 6 5, 9 5, 8 3, 5.01 3.01))'), g);
DROP TABLE t1;
select 0, ST_Within(GeomFromText('LINESTRING(15 15, 50 50, 60 60)'), GeomFromText('POLYGON((10 10,30 20,20 40, 10 10))'));
select 1, ST_Within(GeomFromText('LINESTRING(15 15, 16 16)'), GeomFromText('POLYGON((10 10,30 20,20 40, 10 10))'));
select 1, ST_Intersects(GeomFromText('LINESTRING(15 15, 50 50)'), GeomFromText('LINESTRING(50 15, 15 50)'));
select 0, ST_Intersects(GeomFromText('LINESTRING(15 15, 50 50)'), GeomFromText('LINESTRING(16 16, 51 51)'));
select 1, ST_Intersects(GeomFromText('POLYGON((0 0, 50 45, 40 50, 0 0))'), GeomFromText('POLYGON((50 5, 55 10, 0 45, 50 5))'));
select astext(ST_Union(geometryfromtext('point(1 1)'), geometryfromtext('polygon((0 0, 2 0, 1 2, 0 0))')));
select astext(ST_Intersection(geometryfromtext('point(1 1)'), geometryfromtext('polygon((0 0, 2 0, 1 2, 0 0))')));
select ST_Intersects(GeomFromText('POLYGON((0 0, 50 45, 40 50, 0 0))'), GeomFromText('POLYGON((50 5, 55 10, 0 45, 50 5))'));
select ST_contains(GeomFromText('MULTIPOLYGON(((0 0, 0 5, 5 5, 5 0, 0 0)), ((6 6, 6 11, 11 11, 11 6, 6 6)))'), GeomFromText('POINT(5 10)'));
select ST_Disjoint(GeomFromText('POLYGON((0 0, 0 5, 5 5, 5 0, 0 0))'), GeomFromText('POLYGON((10 10, 10 15, 15 15, 15 10, 10 10))'));
select ST_Disjoint(GeomFromText('POLYGON((0 0, 0 5, 5 5, 5 0, 0 0))'), GeomFromText('POLYGON((10 10, 10 4, 4 4, 4 10, 10 10))'));
select ST_Overlaps(GeomFromText('POLYGON((0 0, 0 5, 5 5, 5 0, 0 0))'), GeomFromText('POLYGON((10 10, 10 4, 4 4, 4 10, 10 10))'));
select ST_Overlaps(GeomFromText('POLYGON((0 0, 0 5, 5 5, 5 0, 0 0))'), GeomFromText('POLYGON((1 1, 1 4, 4 4, 4 1, 1 1))'));
# Distance tests
select ST_DISTANCE(geomfromtext('polygon((0 0, 1 2, 2 1, 0 0))'), geomfromtext('polygon((2 2, 3 4, 4 3, 2 2))'));
select ST_DISTANCE(geomfromtext('polygon((0 0, 1 2, 2 1, 0 0))'), geomfromtext('linestring(0 1, 1 0)'));
select ST_DISTANCE(geomfromtext('polygon((0 0, 3 6, 6 3, 0 0))'), geomfromtext('polygon((2 2, 3 4, 4 3, 2 2))'));
select ST_DISTANCE(geomfromtext('polygon((0 0, 3 6, 6 3, 0 0),(2 2, 3 4, 4 3, 2 2))'), geomfromtext('point(3 3)'));
select ST_DISTANCE(geomfromtext('linestring(0 0, 3 6, 6 3, 0 0)'), geomfromtext('polygon((2 2, 3 4, 4 3, 2 2))'));
# Operations tests
select astext(ST_Intersection(GeomFromText('POLYGON((0 0, 50 45, 40 50, 0 0))'), GeomFromText('POLYGON((50 5, 55 10, 0 45, 50 5))')));
select astext(ST_Intersection(GeomFromText('LINESTRING(0 0, 50 45, 40 50, 0 0)'), GeomFromText('LINESTRING(50 5, 55 10, 0 45, 50 5)')));
select astext(ST_Intersection(GeomFromText('LINESTRING(0 0, 50 45, 40 50)'), GeomFromText('LINESTRING(50 5, 55 10, 0 45)')));
select astext(ST_Intersection(GeomFromText('POLYGON((0 0, 50 45, 40 50, 0 0))'), GeomFromText('POINT(20 20)')));
select astext(ST_Intersection(GeomFromText('POLYGON((0 0, 50 45, 40 50, 0 0))'), GeomFromText('LINESTRING(-10 -10, 200 200)')));
select astext(ST_Intersection(GeomFromText('POLYGON((0 0, 50 45, 40 50, 0 0))'), GeomFromText('LINESTRING(-10 -10, 200 200, 199 201, -11 -9)')));
select astext(ST_UNION(GeomFromText('POLYGON((0 0, 50 45, 40 50, 0 0))'), GeomFromText('LINESTRING(-10 -10, 200 200, 199 201, -11 -9)')));
select astext(ST_intersection(geomfromtext('polygon((0 0, 1 0, 0 1, 0 0))'), geomfromtext('polygon((0 0, 1 1, 0 2, 0 0))')));
select astext(ST_symdifference(geomfromtext('polygon((0 0, 1 0, 0 1, 0 0))'), geomfromtext('polygon((0 0, 1 1, 0 2, 0 0))')));
select astext(ST_UNION(GeomFromText('POLYGON((0 0, 50 45, 40 50, 0 0))'), GeomFromText('LINESTRING(-10 -10, 200 200, 199 201, -11 -9)')));
# Buffer() tests
select astext(ST_buffer(geometryfromtext('point(1 1)'), 1));
create table t1(geom geometrycollection);
insert into t1 values (geomfromtext('POLYGON((0 0, 10 10, 0 8, 0 0))'));
insert into t1 values (geomfromtext('POLYGON((1 1, 10 10, 0 8, 1 1))'));
select astext(geom), area(geom),area(ST_buffer(geom,2)) from t1;
select astext(ST_buffer(geom,2)) from t1;
set @geom=geomfromtext('LINESTRING(2 1, 4 2, 2 3, 2 5)');
set @buff=ST_buffer(@geom,1);
select astext(@buff);
# cleanup
DROP TABLE t1;
#Touches tests
select st_touches(geomfromtext('point(0 0)'), geomfromtext('point(1 1)'));
select st_touches(geomfromtext('point(1 1)'), geomfromtext('point(1 1)'));
select st_touches(geomfromtext('polygon((0 0, 2 2, 0 4, 0 0))'), geomfromtext('point(1 1)'));
select st_touches(geomfromtext('polygon((0 0, 2 2, 0 4, 0 0))'), geomfromtext('point(1 0)'));
select st_touches(geomfromtext('polygon((0 0, 2 2, 0 4, 0 0))'), geomfromtext('point(1 2)'));
select st_touches(geomfromtext('polygon((0 0, 2 2, 0 4, 0 0))'), geomfromtext('polygon((1 1.2, 1 0, 2 0, 1 1.2))'));
select st_touches(geomfromtext('polygon((0 0, 2 2, 0 4, 0 0))'), geomfromtext('polygon((1 1, 1 0, 2 0, 1 1))'));
#Equals test
SELECT ST_Equals(PolyFromText('POLYGON((67 13, 67 18, 67 18, 59 18, 59 13, 67 13) )'),PolyFromText('POLYGON((67 13, 67 18, 59 19, 59 13, 59 13, 67 13) )')) as result;
SELECT ST_Equals(PolyFromText('POLYGON((67 13, 67 18, 67 18, 59 18, 59 13, 67 13) )'),PolyFromText('POLYGON((67 13, 67 18, 59 18, 59 13, 59 13, 67 13) )')) as result;
SELECT ST_Equals(PointFromText('POINT (12 13)'),PointFromText('POINT (12 13)')) as result;
# bug #801243 Assertion `(0)' failed in Gis_geometry_collection::init_from_opresult on ST_UNION
SELECT astext(ST_UNION (
PolyFromText('POLYGON(( 2 2 ,3 2,2 7,2 2),( 0 0,8 2,1 9,0 0))'),
ExteriorRing( Envelope( MultiLineStringFromText('MULTILINESTRING((3 4,5 3),(3 0,0 5))')))));
#bug 801189 ST_BUFFER asserts if radius = 0
SELECT astext(ST_BUFFER(LineStringFromText('LINESTRING(0 0,1 1)'),0));
#bug 801199 Infinite recursion in Gcalc_function::count_internal with ST_BUFFER over MULTIPOINT
SELECT Round(ST_Area(ST_BUFFER(MultipointFromText('MULTIPOINT(7 7,3 7,7 2,7 4 ,7 7)'), 3)), 5);
#bug 801212 Assertion with ST_INTERSECTION on NULL values
SELECT ST_INTERSECTION(NULL, NULL);
#bug 804305 Crash in wkb_get_double with ST_INTERSECTION
SELECT ASTEXT(ST_INTERSECTION(
MULTIPOLYGONFROMTEXT('MULTIPOLYGON(((2 2,2 8,8 8,8 2,2 2),(4 4,4 6,6 6,6 4,4 4)),
((0 5,3 5,3 0,0 0,0 1,2 1,2 2,0 2,0 5), (1 3,2 3,2 4,1 4,1 3)),
((2 2,5 2,4 4,2 8,2 2)))'),
MULTIPOLYGONFROMTEXT('MULTIPOLYGON(((3 5,2 4,2 5,3 5)),
((2 2,9 2,0 2,2 6,2 2)),
((2 2,2 8,8 8,8 2,2 2), (4 4,4 6,6 6,6 4,4 4)),
((9 9,6 8,7 0,9 9)))')));
#bug 804324 Assertion 0 in Gcalc_scan_iterator::pop_suitable_intersection
SELECT ASTEXT(ST_UNION(
MULTILINESTRINGFROMTEXT('MULTILINESTRING((6 2,4 0,3 5,3 6,4 3,6 4,3 9,0 7,3 7,8 4,2 9,5 0),
(8 2,1 3,9 0,4 4))'),
MULTILINESTRINGFROMTEXT('MULTILINESTRING((2 5,6 7,9 7,5 2,1 6,3 6))')));
SELECT ST_NUMGEOMETRIES((ST_UNION(ST_UNION(
MULTILINESTRINGFROMTEXT('MULTILINESTRING((2 0,4 2,0 2,1 5,0 3,7 0,8 5,5 8),
(6 2,4 0,3 5,3 6,4 3,6 4,3 9,0 7,3 7,8 4,2 9,5 0),
(7 8,3 1,0 9,6 0,4 8),
(9 3,0 4,5 9,6 4),
(8 2,1 3,9 0,4 4))'),
MULTILINESTRINGFROMTEXT('MULTILINESTRING((6 0,9 3,2 5,3 6,3 2),
(2 5,6 7,9 7,5 2,1 6,3 6))')),
MULTIPOLYGONFROMTEXT('MULTIPOLYGON(((7 7,3 7,3 1,7 8,7 7)),
((3 5,2 4,2 5,3 5)),
((7 7,8 7,3 7,7 7,7 7)),
((0 5,3 5,3 4,1 4,1 3,3 3,3 0,0 0,0 5), (1 1,2 1,2 2,1 2,1 1)))'))));
#bug #805860 Second assertion Assertion `n > 0 && n < SINUSES_CALCULATED*2+1' in get_n_sinco
SELECT Round(ST_AREA(ST_BUFFER( ST_UNION(
POLYGONFROMTEXT('POLYGON((7 7, 7 7, 7 4, 7 7, 7 7))'),
POLYGONFROMTEXT('POLYGON((7 7, 4 7, 2 9, 7 6, 7 7))')), 1)), 6);
#bug #804259 Second assertion in Gis_geometry_collection::init_from_opresult
SELECT AsText(ST_UNION(MultiPolygonFromText('
MULTIPOLYGON(((2 2, 2 8, 8 8, 8 2, 2 2), (4 4, 4 6, 6 6, 6 4, 4 4)),
((0 0, 8 3, 7 4, 0 0)),
((2 2, 2 8, 8 8, 8 2, 2 2), (4 4, 4 6, 6 6, 6 4, 4 4)))'),
MultiPolygonFromText(' MULTIPOLYGON(((0 0, 1 9, 4 6, 0 0)),
((0 5, 3 5, 3 4, 1 4, 1 3, 3 3, 3 0, 0 0, 0 5), (1 1, 2 1, 2 2, 1 2, 1 1)),
((7 7, 4 7, 6 3, 7 2, 7 7)),
((0 5, 3 5, 3 4, 1 4, 1 3, 3 3, 3 0, 0 0, 0 5), (1 1, 2 1, 2 2, 1 2, 1 1))) ')));
#bug 801217 Assertion `t1->result_range' in Gcalc_operation_reducer::end_couple
SELECT AsText(ST_SYMDIFFERENCE(
MultiLineStringFromText('MULTILINESTRING((7 7, 1 7, 8 5, 7 8, 7 7),
(6 3, 3 4, 1 1, 9 9, 9 0, 8 4, 9 9))'),
Envelope(GeometryFromText('MULTIPOINT(7 9, 0 0, 3 7, 1 6, 0 0)'))));
#bug 804266 Memory corruption/valgrind warning/crash in move_hole() with ST_UNION
SELECT AsText(ST_UNION(
MultiPolygonFromText('MULTIPOLYGON(((9 9, 7 9, 1 1, 9 9)),
((2 2, 1 2, 3 3, 2 2, 2 2)),
((0 0, 7 5, 9 6, 0 0)),
((7 7, 5 7, 1 5, 7 1, 7 7)))'),
MultiPolygonFromText('MULTIPOLYGON(((2 2, 2 2, 1 5, 2 7, 2 2)),
((0 5, 3 5, 3 0, 0 0, 0 5), (1 1, 2 1, 2 4, 1 4, 1 1)))')));
#bug 802376 ST_INTERSECTION returns wrong result on two overlapping linestrings in maria-5.3-gis
SELECT AsText( ST_INTERSECTION(
LinestringFromText('LINESTRING( 3 5, 2 5, 2 4, 3 4, 3 5 ) ') ,
LinestringFromText('LINESTRING( 3 5, 2 4, 2 5, 3 5 ) ')
));
#bug 801560 ST_UNION of adjacent polygons includes extra line in maria-5.3-gis
SELECT AsText( ST_UNION(
PolygonFromText(' POLYGON( ( 2 2 , 3 2 , 7 5 , 2 0 , 2 2 ) ) ') ,
PolygonFromText(' POLYGON( ( 2 2 , 3 2 , 3 3 , 2 5 , 2 2 ) ) ') ) );
#bug 801466 ST_INTERSECTION() returns invalid value on empty intersection in maria-5.3-gis
SELECT AsText(ST_INTERSECTION(LinestringFromText('LINESTRING(1 1, 2 2)'), GeometryFromText('LINESTRING(3 3, 4 4)')));
#bug 839341 100% CPU usage with ST_UNION in maria-5.3-gis
SELECT AsText(ST_UNION(GEOMETRYFROMTEXT('POINT(8 1)') ,MULTILINESTRINGFROMTEXT('MULTILINESTRING((3 5, 2 5, 2 4, 3 4, 3 5))')));
#bug 839318 Crash in Gcalc_scan_iterator::point::get_shape with ST_DISTANCE and MULTILINESTRING in maria-5.3-gis
SELECT ST_DISTANCE(POINTFROMTEXT('POINT(7 1)'),MULTILINESTRINGFROMTEXT('MULTILINESTRING(
(4 7,9 7,6 1,3 4,1 1), (3 5, 2 5, 2 4, 3 4, 3 5))'));
#bug 839327 Crash in Gcalc_operation_reducer::end_couple with ST_UNION and MULTIPOLYGONs in 5.3-gis
SELECT AsText(ST_UNION(POLYGONFROMTEXT('POLYGON((12 9, 3 6, 3 0, 12 9))'), POLYGONFROMTEXT('POLYGON((2 2, 7 2, 4 2, 2 0, 2 2))')));
#bug 841622 Assertion `t->rp->type == Gcalc_function::shape_line' failed in Gcalc_operation_reducer::end_line in maria-5.3-gis
SELECT ST_NUMPOINTS(ST_EXTERIORRING(ST_BUFFER(ST_UNION(
MULTILINESTRINGFROMTEXT('MULTILINESTRING((3 4, 2 5, 7 6, 1 8),(0 0 ,1 6 ,0 1, 8 9, 2 4, 6 1, 3 5, 4 8), (9 3, 5 4, 1 8, 4 2, 5 8, 3 0))' ) ,
MULTILINESTRINGFROMTEXT('MULTILINESTRING((3 4, 3 1, 2 7, 4 2, 6 2, 1 5))')
), 16)));
#bug 841625 Assertion `m_poly_borders->next' failed in Gcalc_operation_reducer::count_slice in maria-5.3-gis
SELECT ST_NUMGEOMETRIES(ST_DIFFERENCE (
ST_UNION (
MULTILINESTRINGFROMTEXT( ' MULTILINESTRING( ( 2 4 , 5 0 , 2 9 , 6 2 , 0 2 ) , ( 4 3 , 5 6 , 9 4 , 0 7 , 7 2 , 2 0 , 8 2 ) , ( 5 0 , 1 5 , 3 7 , 7 7 ) , ( 2 3 , 9 5 , 2 0 , 8 1 ) , ( 0 9 , 9 3 , 2 8 , 8 1 , 9 4 ) ) ' ),
ST_UNION (
MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( ( 2 2 , 7 2 , 6 2 , 2 6 , 2 2 ) ) , ( (3 5, 2 5, 2 4, 3 4, 3 5) ) ) ' ) ,
ENVELOPE(
MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( (3 5, 2 5, 2 4, 3 4, 3 5) ) ) ' )
)
)
),
MULTILINESTRINGFROMTEXT( ' MULTILINESTRING( ( 2 9 , 1 3 , 7 3 , 8 5 ) , ( 5 0 , 8 1 , 2 0 , 7 4 , 1 0 ) , ( 9 2 , 5 2 , 6 5 , 8 8 , 0 2 ) , ( 0 8 , 3 9 , 4 0 , 1 0 ) , ( 0 0 , 7 6 , 8 3 , 0 0 ) ) ' )
));
#bug 841745 ssertion `!sp0->is_bottom()' failed in Gcalc_scan_iterator::find_intersections in maria-5.3-gis
SELECT ASTEXT(ST_DIFFERENCE (
POLYGONFROMTEXT( ' POLYGON( ( 2 2 , 2 8 , 8 8 , 8 2 , 2 2 ) , ( 4 4 , 4 6 , 6 6 , 6 4 , 4 4 ) ) ' ) ,
ST_UNION (
MULTILINESTRINGFROMTEXT( ' MULTILINESTRING( (3 5, 2 5, 2 4, 3 4, 3 5) ) ' ) ,
ST_SYMDIFFERENCE (
MULTILINESTRINGFROMTEXT( ' MULTILINESTRING( ( 3 8 , 0 8 , 6 6 , 6 1 , 0 5 , 6 7 , 3 7 ) , ( 5 8 , 7 7 , 9 0 , 8 7 ) , ( 1 5 , 1 8 , 2 3 , 3 9 ) , ( 1 3 , 9 7 , 5 5 , 0 8 , 6 9 ) , ( 3 6 , 6 9 , 8 7 , 0 2 , 4 6 , 9 5 ) ) ' ) ,
ST_UNION (
MULTILINESTRINGFROMTEXT( ' MULTILINESTRING( ( 9 4 , 2 0 , 2 2 , 7 2 , 6 2 ) , ( 5 2 , 8 2 , 4 8 , 3 4 ) , ( 1 0 , 1 4 , 2 7 , 7 0 , 1 5 ) , ( 2 8 , 4 4 , 5 0 , 7 0 , 4 0 ) ) ' ) ,
GEOMETRYFROMTEXT( ' MULTILINESTRING( ( 3 7 , 7 3 , 5 8 , 4 8 ) , ( 3 2 , 5 0 , 9 3 , 4 4 ) , ( 6 0 , 4 2 , 7 8 , 1 3 ) ) ' )
)
)
)
));
#bug 841773 Assertion `t0->rp->type == t1->rp->type' failed in Gcalc_operation_reducer::end_couple in maria-5.3-gis
SELECT ST_NUMGEOMETRIES(ST_UNION (
MULTILINESTRINGFROMTEXT( ' MULTILINESTRING( ( 0 8 , 1 9 , 5 7 , 2 8 , 5 8 , 6 7 ) , ( 4 5 , 8 4 , 0 3 , 5 1 ) , ( 6 8 , 2 7 , 1 6 , 9 9 , 7 2 ) , ( 9 5 , 2 8 , 1 2 , 9 6 , 2 0 ) ) ' ) ,
MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( ( 7 7 , 2 7, 6 8, 7 1 , 7 7 ) ) ) ' )
));
#bug 841662 Third assertion `n > 0 && n < SINUSES_CALCULATED*2+1' in get_n_sincos
SELECT ST_BUFFER (
LINESTRINGFROMTEXT( ' LINESTRING( 5 4 , 3 8 , 2 6 , 5 5 , 7 9 ) ' ) ,
ST_DISTANCE (
MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( (3 5, 2 4, 2 5, 3 5) ) , ( (3 5, 2 5, 2 4, 3 4, 3 5) ) , ( ( 0 0 , 8 3 , 9 5 , 0 0 ) ) ) ' ) ,
ST_DIFFERENCE (
MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( (3 5, 2 5, 2 4, 3 4, 3 5) ) ) ' ) ,
MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( ( 2 2 , 2 8 , 8 8 , 8 2 , 2 2 ) , ( 4 4 , 4 6 , 6 6 , 6 4 , 4 4 ) ) , ( ( 0 0 , 3 8 , 9 4 , 0 0 ) ) ) ' )
)
)
) ;
SELECT ST_DISTANCE ( ST_DIFFERENCE ( MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( (3 5, 2 5, 2 4, 3 4, 3 5) ) ) ' ) , MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( ( 2 2 , 2 8 , 8 8 , 8 2 , 2 2 ) , ( 4 4 , 4 6 , 6 6 , 6 4 , 4 4 ) ) , ( ( 0 0 , 3 8 , 9 4 , 0 0 ) ) ) ' ) ), MULTIPOLYGONFROMTEXT( ' MULTIPOLYGON( ( (3 5, 2 4, 2 5, 3 5) ) , ( (3 5, 2 5, 2 4, 3 4, 3 5) ) , ( ( 0 0 , 8 3 , 9 5 , 0 0 ) ) ) ' ) ) ;
#bug 848939 Wrong result with ST_INTERSECTION between linestrings and a polygon in 5.3-gis
SELECT ASTEXT(ST_INTERSECTION( GEOMETRYFROMTEXT('GEOMETRYCOLLECTION(LINESTRING(7 7,5.33333333333333 7),LINESTRING(5.33333333333333 7,0 7,5 8,5.33333333333333 7),LINESTRING(5.33333333333333 7,7 2,7 7),POLYGON((0 5,3 5,3 2,1 2,1 1,3 1,3 0,0 0,0 3,2 3,2 4,0 4,0 5)))'), geomETRYFROMTEXT(' MULTILINESTRING( ( 5 1 , 3 7 , 6 1 , 7 0 ) , ( 1 6 , 8 5 , 7 5 , 5 6 ) )') ));
#bug 855485 ST_CROSSES returns different result than PostGIS for overlapping polygons
SELECT ST_CROSSES( GEOMETRYFROMTEXT(' POLYGON( (3 5, 2 4, 2 5, 3 5) ) ') , POLYGONFROMTEXT(' POLYGON((2 4,3 4,3 5,2 5,2 4)) '));
#bug 855487 ST_WITHIN returns wrong result for partially overlapping polygons
SELECT ST_WITHIN( POLYGONFROMTEXT(' POLYGON( (0 5, 3 5, 3 4, 2 0 , 1 0, 2 4 , 0 4, 0 5) ) ') , POLYGONFROMTEXT(' POLYGON( (0 5, 3 5, 3 4, 1 4 , 1 3 , 3 3 , 3 0 , 0 0 , 0 5), ( 1 1 , 2 1 , 2 2 , 1 2 , 1 1 ) ) ') );
#bug 855492 ST_WITHIN returns TRUE on point on the edge of a polygon
SELECT ST_WITHIN( POINTFROMTEXT(' POINT(1 2 ) ') , MULTIPOLYGONFROMTEXT(' MULTIPOLYGON( ( (0 5, 3 5, 3 0, 0 0, 0 5), ( 1 1 , 2 1 , 2 4, 1 4, 1 1 ) ) ) '));
#bug 855497 ST_ENVELOPE of GEOMETRYCOLLECTION EMPTY returns NULL and not GEOMETRYCOLLECTION EMPTY
select ST_ASTEXT(envelope(ST_GEOMCOLLFROMTEXT('GEOMETRYCOLLECTION EMPTY')));
#bug 855503 ST_EQUALS reports TRUE between a POLYGON and a MULTILINESTRING
SELECT ST_EQUALS( GEOMETRYFROMTEXT(' MULTILINESTRING( (3 5, 2 5, 2 4, 3 4, 3 5) ) ') , GEOMETRYFROMTEXT(' POLYGON( (3 5, 2 5, 2 4, 3 4, 3 5) ) ') );
#bug 855505 ST_TOUCHES reports TRUE for intersecting polygon and linestring
SELECT ST_TOUCHES( GEOMETRYFROMTEXT(' LINESTRING( 1 1 , 1 4 , 5 0 , 8 3 ) ') , POLYGONFROMTEXT(' POLYGON( ( 2 2 , 2 8 , 8 8 , 8 2 , 2 2 ) , ( 4 4 , 4 6 , 6 6 , 6 4 , 4 4 ) ) ') );
#bug 857051 ST_EQUALS returns TRUE on two nonidentical MULTIPOINTs
SELECT ST_EQUALS( MULTIPOINTFROMTEXT(' MULTIPOINT( 5 1 , 6 9 , 1 4 , 4 0 ) ') , MULTIPOINTFROMTEXT(' MULTIPOINT( 5 8 , 5 2 , 1 8 , 3 0 , 3 0 , 7 8 ) ') );
SELECT ST_EQUALS( MULTIPOINTFROMTEXT(' MULTIPOINT( 5 1 , 6 9 , 1 4 , 4 0 ) ') , MULTIPOINTFROMTEXT('MULTIPOINT( 4 0 , 6 9 , 5 1, 1 4 )') );
#bug 857050 ST_WITHIN returns wrong result with MULTIPOINT and POLYGON
SELECT ST_WITHIN( MULTIPOINTFROMTEXT(' MULTIPOINT( 2 9 , 2 9 , 4 9 , 9 1 ) ') , POLYGONFROMTEXT(' POLYGON( ( 2 2 , 2 8 , 8 8 , 8 2 , 2 2 ) , ( 4 4 , 4 6 , 6 6 , 6 4 , 4 4 ) ) '));
#bug 857087 Wrong result with ST_INTERSECTS and LINESTRINGs
SELECT ST_INTERSECTS( GeomFromText('MULTILINESTRING( ( 4030 3045 , 3149 2461 , 3004 3831 , 3775 2976 ) )') , GeomFromText('LINESTRING(3058.41 3187.91,3081.52 3153.19,3042.99 3127.57,3019.89 3162.29,3039.07 3175.05,3039.07 3175.05,3058.41 3187.91,3081.52 3153.19,3042.99 3127.57,3019.89 3162.29)') );

64
mysql-test/t/gis-rt-precise.test Normal file
View File

@ -0,0 +1,64 @@
-- source include/have_geometry.inc
#
# test of rtree (using with spatial data)
#
--disable_warnings
DROP TABLE IF EXISTS t1;
--enable_warnings
CREATE TABLE t1 (
fid INT NOT NULL AUTO_INCREMENT PRIMARY KEY,
g GEOMETRY NOT NULL,
SPATIAL KEY(g)
) ENGINE=MyISAM;
SHOW CREATE TABLE t1;
--disable_query_log
let $1=150;
let $2=150;
while ($1)
{
eval INSERT INTO t1 (g) VALUES (GeomFromText('LineString($1 $1, $2 $2)'));
dec $1;
inc $2;
}
--enable_query_log
SELECT count(*) FROM t1;
EXPLAIN SELECT fid, AsText(g) FROM t1 WHERE ST_Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 140))'));
SELECT fid, AsText(g) FROM t1 WHERE ST_Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
DROP TABLE t1;
CREATE TABLE t1 (
fid INT NOT NULL AUTO_INCREMENT PRIMARY KEY,
g GEOMETRY NOT NULL
) ENGINE=MyISAM;
--disable_query_log
let $1=10;
while ($1)
{
let $2=10;
while ($2)
{
eval INSERT INTO t1 (g) VALUES (LineString(Point($1 * 10 - 9, $2 * 10 - 9), Point($1 * 10, $2 * 10)));
dec $2;
}
dec $1;
}
--enable_query_log
ALTER TABLE t1 ADD SPATIAL KEY(g);
SHOW CREATE TABLE t1;
SELECT count(*) FROM t1;
EXPLAIN SELECT fid, AsText(g) FROM t1 WHERE ST_Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 40))'));
SELECT fid, AsText(g) FROM t1 WHERE ST_Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 40))'));
DROP TABLE t1;
--echo End of 5.5 tests.

12
mysql-test/t/gis-rtree.test
View File

@ -17,16 +17,12 @@ SHOW CREATE TABLE t1;
let $1=150;
let $2=150;
--disable_query_log
begin;
while ($1)
{
eval INSERT INTO t1 (g) VALUES (GeomFromText('LineString($1 $1, $2 $2)'));
dec $1;
inc $2;
}
commit;
--enable_query_log
SELECT count(*) FROM t1;
EXPLAIN SELECT fid, AsText(g) FROM t1 WHERE Within(g, GeomFromText('Polygon((140 140,160 140,160 160,140 160,140 140))'));
@ -39,8 +35,6 @@ CREATE TABLE t2 (
g GEOMETRY NOT NULL
) ENGINE=MyISAM;
--disable_query_log
begin;
let $1=10;
while ($1)
{
@ -52,8 +46,6 @@ while ($1)
}
dec $1;
}
commit;
--enable_query_log
ALTER TABLE t2 ADD SPATIAL KEY(g);
SHOW CREATE TABLE t2;
@ -63,8 +55,6 @@ EXPLAIN SELECT fid, AsText(g) FROM t2 WHERE Within(g,
SELECT fid, AsText(g) FROM t2 WHERE Within(g,
GeomFromText('Polygon((40 40,60 40,60 60,40 60,40 40))'));
--disable_query_log
begin;
let $1=10;
while ($1)
{
@ -77,8 +67,6 @@ while ($1)
}
dec $1;
}
commit;
--enable_query_log
DROP TABLE t2;

598
mysql-test/t/gis.test
View File

@ -62,7 +62,9 @@ INSERT INTO gis_multi_polygon VALUES
INSERT INTO gis_geometrycollection VALUES
(120, GeomCollFromText('GEOMETRYCOLLECTION(POINT(0 0), LINESTRING(0 0,10 10))')),
(121, GeometryFromWKB(AsWKB(GeometryCollection(Point(44, 6), LineString(Point(3, 6), Point(7, 9))))));
(121, GeometryFromWKB(AsWKB(GeometryCollection(Point(44, 6), LineString(Point(3, 6), Point(7, 9)))))),
(122, GeomFromText('GeometryCollection()')),
(123, GeomFromText('GeometryCollection EMPTY'));
INSERT into gis_geometry SELECT * FROM gis_point;
INSERT into gis_geometry SELECT * FROM gis_line;
@ -353,6 +355,9 @@ insert into t1 values ('85984',GeomFromText('MULTIPOLYGON(((-115.006363
36.248666,-115.263639 36.247466,-115.263839 36.252766,-115.261439
36.252666,-115.261439 36.247366,-115.247239 36.247066)))'));
# Expected result is 115.31877315203187, but IA64 returns 115.31877315203188
# due to fused multiply-add instructions.
--replace_result 115.31877315203188 115.31877315203187
select object_id, geometrytype(geo), ISSIMPLE(GEO), ASTEXT(centroid(geo)) from
t1 where object_id=85998;
@ -535,18 +540,6 @@ create table t1 (g geometry not null);
insert into t1 values(default);
drop table t1;
#
# Bug #27300: create view with geometry functions lost columns types
#
CREATE TABLE t1 (a GEOMETRY);
CREATE VIEW v1 AS SELECT GeomFromwkb(ASBINARY(a)) FROM t1;
CREATE VIEW v2 AS SELECT a FROM t1;
DESCRIBE v1;
DESCRIBE v2;
DROP VIEW v1,v2;
DROP TABLE t1;
#
# Bug#24563: MBROverlaps does not seem to function propertly
# Bug#54888: MBROverlaps missing in 5.1?
@ -761,9 +754,586 @@ drop table t1;
--echo #
create table t1(a char(32) not null) engine=myisam;
--replace_regex /'[^']*test\.#sql-[0-9a-f_]*'/'#sql-temporary'/
--error ER_CANT_CREATE_TABLE
--error ER_SPATIAL_MUST_HAVE_GEOM_COL
create spatial index i on t1 (a);
drop table t1;
--echo End of 5.1 tests
#
# Bug #50574 5.5.x allows spatial indexes on non-spatial
# columns, causing crashes!
#
--error ER_SPATIAL_MUST_HAVE_GEOM_COL
CREATE TABLE t1(
col0 BINARY NOT NULL,
col2 TIMESTAMP,
SPATIAL INDEX i1 (col0)
) ENGINE=MyISAM;
# Test other ways to add indices
CREATE TABLE t1 (
col0 BINARY NOT NULL,
col2 TIMESTAMP
) ENGINE=MyISAM;
--error ER_SPATIAL_MUST_HAVE_GEOM_COL
CREATE SPATIAL INDEX idx0 ON t1(col0);
--error ER_SPATIAL_MUST_HAVE_GEOM_COL
ALTER TABLE t1 ADD SPATIAL INDEX i1 (col0);
CREATE TABLE t2 (
col0 INTEGER NOT NULL,
col1 POINT,
col2 POINT
);
--error ER_WRONG_ARGUMENTS
CREATE SPATIAL INDEX idx0 ON t2 (col1, col2);
--error ER_WRONG_ARGUMENTS
CREATE TABLE t3 (
col0 INTEGER NOT NULL,
col1 POINT,
col2 LINESTRING,
SPATIAL INDEX i1 (col1, col2)
);
# cleanup
DROP TABLE t1;
DROP TABLE t2;
#bug 850775 ST_AREA does not work on GEOMETRYCOLLECTIONs in maria-5.3-gis
select ST_AREA(ST_GEOMCOLLFROMTEXT(' GEOMETRYCOLLECTION(LINESTRING(100 100, 31 10, 77 80), POLYGON((0 0,4 7,1 1,0 0)), POINT(20 20))'));
#bug 855336 ST_LENGTH does not work on GEOMETRYCOLLECTIONs
select ST_LENGTH(ST_GEOMCOLLFROMTEXT(' GEOMETRYCOLLECTION(LINESTRING(100 100, 100 30, 20 30), POINT(3 3), LINESTRING(20 20, 30 20))'));
# Conformance tests
#
# C.3.3 Geometry types and functions
#
--disable_warnings
DROP DATABASE IF EXISTS gis_ogs;
--enable_warnings
CREATE DATABASE gis_ogs;
USE gis_ogs;
--echo #
--echo # C.3.3.1 Geometry types and functions schema construction
--echo #
# TODO: WL#2377
#CREATE TABLE spatial_ref_sys (
#srid INTEGER NOT NULL PRIMARY KEY,
#auth_name CHARACTER VARYING,
#auth_srid INTEGER,
#srtext CHARACTER VARYING(2048));
CREATE TABLE lakes (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
shore POLYGON);
CREATE TABLE road_segments (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
aliases CHARACTER VARYING(64),
num_lanes INTEGER,
centerline LINESTRING);
CREATE TABLE divided_routes (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
num_lanes INTEGER,
centerlines MULTILINESTRING);
CREATE TABLE forests (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
boundary MULTIPOLYGON);
CREATE TABLE bridges (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
position POINT);
CREATE TABLE streams (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
centerline LINESTRING);
CREATE TABLE buildings (
fid INTEGER NOT NULL PRIMARY KEY,
address CHARACTER VARYING(64),
position POINT,
footprint POLYGON);
CREATE TABLE ponds (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
type CHARACTER VARYING(64),
shores MULTIPOLYGON);
CREATE TABLE named_places (
fid INTEGER NOT NULL PRIMARY KEY,
name CHARACTER VARYING(64),
boundary POLYGON);
CREATE TABLE map_neatlines (
fid INTEGER NOT NULL PRIMARY KEY,
neatline POLYGON);
--echo #
--echo # C.3.3.2 Geometry types and functions schema data loading
--echo #
# TODO: WL#2377
#-- Spatial Reference System
#INSERT INTO spatial_ref_sys VALUES
#(101, 'POSC', 32214, 'PROJCS["UTM_ZONE_14N",
#GEOGCS["World Geodetic System 72",
#DATUM["WGS_72",
#ELLIPSOID["NWL_10D", 6378135, 298.26]],
#PRIMEM["Greenwich", 0],
#UNIT["Meter", 1.0]],
#PROJECTION["Transverse_Mercator"],
#PARAMETER["False_Easting", 500000.0],
#PARAMETER["False_Northing", 0.0],
#PARAMETER["Central_Meridian", -99.0],
#PARAMETER["Scale_Factor", 0.9996],
#PARAMETER["Latitude_of_origin", 0.0],
#UNIT["Meter", 1.0]]');
--echo # Lakes
INSERT INTO lakes VALUES (
101, 'BLUE LAKE',
PolyFromText(
'POLYGON(
(52 18,66 23,73 9,48 6,52 18),
(59 18,67 18,67 13,59 13,59 18)
)',
101));
--echo # Road Segments
INSERT INTO road_segments VALUES(102, 'Route 5', NULL, 2,
LineFromText(
'LINESTRING( 0 18, 10 21, 16 23, 28 26, 44 31 )' ,101));
INSERT INTO road_segments VALUES(103, 'Route 5', 'Main Street', 4,
LineFromText(
'LINESTRING( 44 31, 56 34, 70 38 )' ,101));
INSERT INTO road_segments VALUES(104, 'Route 5', NULL, 2,
LineFromText(
'LINESTRING( 70 38, 72 48 )' ,101));
INSERT INTO road_segments VALUES(105, 'Main Street', NULL, 4,
LineFromText(
'LINESTRING( 70 38, 84 42 )' ,101));
INSERT INTO road_segments VALUES(106, 'Dirt Road by Green Forest', NULL,
1,
LineFromText(
'LINESTRING( 28 26, 28 0 )',101));
--echo # DividedRoutes
INSERT INTO divided_routes VALUES(119, 'Route 75', 4,
MLineFromText(
'MULTILINESTRING((10 48,10 21,10 0),
(16 0,16 23,16 48))', 101));
--echo # Forests
INSERT INTO forests VALUES(109, 'Green Forest',
MPolyFromText(
'MULTIPOLYGON(((28 26,28 0,84 0,84 42,28 26),
(52 18,66 23,73 9,48 6,52 18)),((59 18,67 18,67 13,59 13,59 18)))',
101));
--echo # Bridges
INSERT INTO bridges VALUES(110, 'Cam Bridge', PointFromText(
'POINT( 44 31 )', 101));
--echo # Streams
INSERT INTO streams VALUES(111, 'Cam Stream',
LineFromText(
'LINESTRING( 38 48, 44 41, 41 36, 44 31, 52 18 )', 101));
INSERT INTO streams VALUES(112, NULL,
LineFromText(
'LINESTRING( 76 0, 78 4, 73 9 )', 101));
--echo # Buildings
INSERT INTO buildings VALUES(113, '123 Main Street',
PointFromText(
'POINT( 52 30 )', 101),
PolyFromText(
'POLYGON( ( 50 31, 54 31, 54 29, 50 29, 50 31) )', 101));
INSERT INTO buildings VALUES(114, '215 Main Street',
PointFromText(
'POINT( 64 33 )', 101),
PolyFromText(
'POLYGON( ( 66 34, 62 34, 62 32, 66 32, 66 34) )', 101));
--echo # Ponds
INSERT INTO ponds VALUES(120, NULL, 'Stock Pond',
MPolyFromText(
'MULTIPOLYGON( ( ( 24 44, 22 42, 24 40, 24 44) ),
( ( 26 44, 26 40, 28 42, 26 44) ) )', 101));
--echo # Named Places
INSERT INTO named_places VALUES(117, 'Ashton',
PolyFromText(
'POLYGON( ( 62 48, 84 48, 84 30, 56 30, 56 34, 62 48) )', 101));
INSERT INTO named_places VALUES(118, 'Goose Island',
PolyFromText(
'POLYGON( ( 67 13, 67 18, 59 18, 59 13, 67 13) )', 101));
--echo # Map Neatlines
INSERT INTO map_neatlines VALUES(115,
PolyFromText(
'POLYGON( ( 0 0, 0 48, 84 48, 84 0, 0 0 ) )', 101));
--echo #
--echo # C.3.3.3 Geometry types and functions schema test queries
--echo
# TODO: WL#2377
#--echo # Conformance Item T1
#SELECT f_table_name
#FROM geometry_columns;
#
#--echo # Conformance Item T2
#SELECT f_geometry_column
#FROM geometry_columns
#WHERE f_table_name = 'streams';
#
#--echo # Conformance Item T3
#SELECT coord_dimension
#FROM geometry_columns
#WHERE f_table_name = 'streams';
#
#--echo # Conformance Item T4
#
#SELECT srid
#FROM geometry_columns
#WHERE f_table_name = 'streams';
#
#--echo # Conformance Item T5
#
#SELECT srtext
#FROM SPATIAL_REF_SYS
#WHERE SRID = 101;
#
--echo # Conformance Item T6
# TODO: ST_Dimension() alias
SELECT Dimension(shore)
FROM lakes
WHERE name = 'Blue Lake';
--echo # Conformance Item T7
# TODO: ST_GeometryType() alias
SELECT GeometryType(centerlines)
FROM divided_routes
WHERE name = 'Route 75';
--echo # Conformance Item T8
# TODO: ST_AsText() alias
SELECT AsText(boundary)
FROM named_places
WHERE name = 'Goose Island';
--echo # Conformance Item T9
# TODO: ST_AsBinary(), ST_PolyFromWKB() aliases
SELECT AsText(PolyFromWKB(AsBinary(boundary),101))
FROM named_places
WHERE name = 'Goose Island';
--echo # Conformance Item T10
# TODO: ST_SRID() alias
SELECT SRID(boundary)
FROM named_places
WHERE name = 'Goose Island';
--echo # Conformance Item T11
# TODO: ST_IsEmpty() alias
SELECT IsEmpty(centerline)
FROM road_segments
WHERE name = 'Route 5'
AND aliases = 'Main Street';
# FIXME: get wrong result:0, expected 1.
#--echo # Conformance Item T12
# TODO: ST_IsSimple() alias
#SELECT IsSimple(shore)
#FROM lakes
#WHERE name = 'Blue Lake';
# TODO: WL#2377
#--echo # Conformance Item T13
#SELECT AsText(Boundary((boundary),101)
#FROM named_places
#WHERE name = 'Goose Island';
--echo # Conformance Item T14
# TODO: ST_Envelope( ) alias
# FIXME: we get anticlockwise, GIS suggests clockwise
SELECT AsText(Envelope(boundary))
FROM named_places
WHERE name = 'Goose Island';
--echo # Conformance Item T15
# TODO: ST_X() alias
SELECT X(position)
FROM bridges
WHERE name = 'Cam Bridge';
--echo # Conformance Item T16
# TODO: ST_Y() alias
SELECT Y(position)
FROM bridges
WHERE name = 'Cam Bridge';
--echo # Conformance Item T17
# TODO: ST_StartPoint() alias
SELECT AsText(StartPoint(centerline))
FROM road_segments
WHERE fid = 102;
--echo # Conformance Item T18
# TODO: ST_EndPoint
SELECT AsText(EndPoint(centerline))
FROM road_segments
WHERE fid = 102;
# TODO: WL#2377
#--echo # Conformance Item T19
# TODO: ST_LineFromWKB() alias
#SELECT IsClosed(LineFromWKB(AsBinary(Boundary(boundary)),SRID(boundary)))
#FROM named_places
#WHERE name = 'Goose Island';
# TODO: WL#2377
#--echo # Conformance Item T20
#SELECT IsRing(LineFromWKB(AsBinary(Boundary(boundary)),SRID(boundary)))
#FROM named_places
#WHERE name = 'Goose Island';
--echo # Conformance Item T21
# TODO: ST_Length() alias
SELECT GLength(centerline)
FROM road_segments
WHERE fid = 106;
--echo # Conformance Item T22
# TODO: ST_NumPoints() alias
SELECT NumPoints(centerline)
FROM road_segments
WHERE fid = 102;
--echo # Conformance Item T23
# TODO: ST_PointN() alias
SELECT AsText(PointN(centerline, 1))
FROM road_segments
WHERE fid = 102;
--echo # Conformance Item T24
# TODO: ST_Centroid() alias
SELECT AsText(Centroid(boundary))
FROM named_places
WHERE name = 'Goose Island';
# TODO: WL#2377
#--echo # Conformance Item T25
#SELECT Contains(boundary, PointOnSurface(boundary))
#FROM named_places
#WHERE name = 'Goose Island';
--echo # Conformance Item T26
# TODO: ST_Area() alias
SELECT Area(boundary)
FROM named_places
WHERE name = 'Goose Island';
--echo # Conformance Item T27
# TODO: ST_ExteriorRing() alias
SELECT AsText(ExteriorRing(shore))
FROM lakes
WHERE name = 'Blue Lake';
--echo # Conformance Item T28
# TODO: ST_NumInteriorRings() alias
SELECT NumInteriorRings(shore)
FROM lakes
WHERE name = 'Blue Lake';
--echo # Conformance Item T29
# TODO: ST_InteriorRingN() alias
SELECT AsText(InteriorRingN(shore, 1))
FROM lakes
WHERE name = 'Blue Lake';
--echo # Conformance Item T30
# TODO: ST_NumGeometries() alias
SELECT NumGeometries(centerlines)
FROM divided_routes
WHERE name = 'Route 75';
--echo # Conformance Item T31
# TODO: ST_GeometryN() alias
SELECT AsText(GeometryN(centerlines, 2))
FROM divided_routes
WHERE name = 'Route 75';
--echo # Conformance Item T32
# TODO: ST_IsClosed() alias
SELECT IsClosed(centerlines)
FROM divided_routes
WHERE name = 'Route 75';
--echo # Conformance Item T33
# TODO: ST_Length() alias
SELECT GLength(centerlines)
FROM divided_routes
WHERE name = 'Route 75';
--echo # Conformance Item T34
# TODO: ST_Centroid() alias
SELECT AsText(Centroid(shores))
FROM ponds
WHERE fid = 120;
# TODO: WL#2377
#--echo # Conformance Item T35
#SELECT Contains(shores, PointOnSurface(shores))
#FROM ponds
#WHERE fid = 120;
--echo # Conformance Item T36
# TODO: ST_Area() alias
SELECT Area(shores)
FROM ponds
WHERE fid = 120;
--echo # Conformance Item T37
# TODO: ST_PolyFromText() alias
SELECT ST_Equals(boundary,
PolyFromText('POLYGON( ( 67 13, 67 18, 59 18, 59 13, 67 13) )',1))
FROM named_places
WHERE name = 'Goose Island';
--echo # Conformance Item T38
SELECT ST_Disjoint(centerlines, boundary)
FROM divided_routes, named_places
WHERE divided_routes.name = 'Route 75'
AND named_places.name = 'Ashton';
--echo # Conformance Item T39
SELECT ST_Touches(centerline, shore)
FROM streams, lakes
WHERE streams.name = 'Cam Stream'
AND lakes.name = 'Blue Lake';
# FIXME: wrong result: get 0, expected 1
#--echo # Conformance Item T40
#SELECT ST_Within(boundary, footprint)
#FROM named_places, buildings
#WHERE named_places.name = 'Ashton'
#AND buildings.address = '215 Main Street';
# FIXME: wrong result: get 0, expected 1
#--echo # Conformance Item T41
#SELECT ST_Overlaps(forests.boundary, named_places.boundary)
#FROM forests, named_places
#WHERE forests.name = 'Green Forest'
#AND named_places.name = 'Ashton';
--echo # Conformance Item T42
# FIXME: TODO: ST_Crosses() alias
SELECT Crosses(road_segments.centerline, divided_routes.centerlines)
FROM road_segments, divided_routes
WHERE road_segments.fid = 102
AND divided_routes.name = 'Route 75';
--echo # Conformance Item T43
SELECT ST_Intersects(road_segments.centerline, divided_routes.centerlines)
FROM road_segments, divided_routes
WHERE road_segments.fid = 102
AND divided_routes.name = 'Route 75';
--echo # Conformance Item T44
SELECT ST_Contains(forests.boundary, named_places.boundary)
FROM forests, named_places
WHERE forests.name = 'Green Forest'
AND named_places.name = 'Ashton';
# TODO: WL#2377
#--echo # Conformance Item T45
#SELECT Relate(forests.boundary, named_places.boundary, 'TTTTTTTTT')
#FROM forests, named_places
#WHERE forests.name = 'Green Forest'
#AND named_places.name = 'Ashton';
--echo # Conformance Item T46
SELECT ST_Distance(position, boundary)
FROM bridges, named_places
WHERE bridges.name = 'Cam Bridge'
AND named_places.name = 'Ashton';
# FIXME: wrong result: NULL, expected 12
#--echo # Conformance Item T47
#SELECT AsText(ST_Intersection(centerline, shore))
#FROM streams, lakes
#WHERE streams.name = 'Cam Stream'
#AND lakes.name = 'Blue Lake';
--echo # Conformance Item T48
SELECT AsText(ST_Difference(named_places.boundary, forests.boundary))
FROM named_places, forests
WHERE named_places.name = 'Ashton'
AND forests.name = 'Green Forest';
#--echo # Conformance Item T49
SELECT AsText(ST_Union(shore, boundary))
FROM lakes, named_places
WHERE lakes.name = 'Blue Lake'
AND named_places.name = 'Goose Island';
--echo # Conformance Item T50
SELECT AsText(ST_SymDifference(shore, boundary))
FROM lakes, named_places
WHERE lakes.name = 'Blue Lake'
AND named_places.name = 'Ashton';
--echo # Conformance Item T51
SELECT count(*)
FROM buildings, bridges
WHERE ST_Contains(ST_Buffer(bridges.position, 15.0), buildings.footprint) = 1;
# TODO: WL#2377
#--echo # Conformance Item T52
#SELECT AsText(ConvexHull(shore))
#FROM lakes
#WHERE lakes.name = 'Blue Lake';
DROP DATABASE gis_ogs;

1
sql/CMakeLists.txt
View File

@ -80,6 +80,7 @@ SET (SQL_SOURCE
rpl_rli.cc rpl_mi.cc sql_servers.cc
sql_connect.cc scheduler.cc
sql_profile.cc event_parse_data.cc opt_table_elimination.cc
gcalc_slicescan.cc gcalc_tools.cc
multi_range_read.cc
opt_subselect.cc
opt_index_cond_pushdown.cc

5
sql/Makefile.am
View File

@ -56,6 +56,7 @@ noinst_HEADERS = item.h item_func.h item_sum.h item_cmpfunc.h \
sql_map.h sql_string.h unireg.h \
sql_error.h field.h handler.h mysqld_suffix.h \
sql_profile.h \
gcalc_slicescan.h gcalc_tools.h \
ha_ndbcluster.h ha_ndbcluster_cond.h \
ha_ndbcluster_binlog.h ha_ndbcluster_tables.h \
ha_partition.h rpl_constants.h \
@ -84,7 +85,8 @@ noinst_HEADERS = item.h item_func.h item_sum.h item_cmpfunc.h \
multi_range_read.h sql_handler.h \
sql_join_cache.h \
create_options.h \
sql_expression_cache.h
sql_expression_cache.h \
gcalc_slicescan.h gcalc_tools.h plistsort.c
mysqld_SOURCES = sql_lex.cc sql_handler.cc sql_partition.cc \
item.cc item_sum.cc item_buff.cc item_func.cc \
@ -101,6 +103,7 @@ mysqld_SOURCES = sql_lex.cc sql_handler.cc sql_partition.cc \
sql_join_cache.cc \
sql_base.cc table.cc sql_select.cc sql_insert.cc \
sql_profile.cc \
gcalc_slicescan.cc gcalc_tools.cc \
sql_prepare.cc sql_error.cc sql_locale.cc \
sql_update.cc sql_delete.cc uniques.cc sql_do.cc \
procedure.cc sql_test.cc \

2
sql/field.cc
View File

@ -8008,7 +8008,7 @@ int Field_geom::store(const char *from, uint length, CHARSET_INFO *cs)
goto err;
// Check given WKB
uint32 wkb_type;
if (length < SRID_SIZE + WKB_HEADER_SIZE + SIZEOF_STORED_DOUBLE*2)
if (length < SRID_SIZE + WKB_HEADER_SIZE + 4)
goto err;
wkb_type= uint4korr(from + SRID_SIZE + 1);
if (wkb_type < (uint32) Geometry::wkb_point ||

1961
sql/gcalc_slicescan.cc Normal file
View File

File diff suppressed because it is too large Load Diff

588
sql/gcalc_slicescan.h Normal file
View File

@ -0,0 +1,588 @@
/* Copyright (c) 2000, 2010 Oracle and/or its affiliates. All rights reserved.
Copyright (C) 2011 Monty Program Ab.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#ifndef GCALC_SLICESCAN_INCLUDED
#define GCALC_SLICESCAN_INCLUDED
#ifndef DBUG_OFF
#define GCALC_CHECK_WITH_FLOAT
#else
#define GCALC_DBUG_OFF
#endif /*DBUG_OFF*/
#ifndef GCALC_DBUG_OFF
#define GCALC_DBUG_PRINT(b) DBUG_PRINT("Gcalc", b)
#define GCALC_DBUG_ENTER(a) DBUG_ENTER("Gcalc "a)
#define GCALC_DBUG_RETURN(r) DBUG_RETURN(r)
#define GCALC_DBUG_VOID_RETURN DBUG_VOID_RETURN
#define GCALC_DBUG_ASSERT(r) DBUG_ASSERT(r)
#else
#define GCALC_DBUG_PRINT(b) do {} while(0)
#define GCALC_DBUG_ENTER(a) do {} while(0)
#define GCALC_DBUG_RETURN(r) return (r)
#define GCALC_DBUG_VOID_RETURN do {} while(0)
#define GCALC_DBUG_ASSERT(r) do {} while(0)
#endif /*GCALC_DBUG_OFF*/
/*
Gcalc_dyn_list class designed to manage long lists of same-size objects
with the possible efficiency.
It allocates fixed-size blocks of memory (blk_size specified at the time
of creation). When new object is added to the list, it occupies part of
this block until it's full. Then the new block is allocated.
Freed objects are chained to the m_free list, and if it's not empty, the
newly added object is taken from this list instead the block.
*/
class Gcalc_dyn_list
{
public:
class Item
{
public:
Item *next;
};
Gcalc_dyn_list(size_t blk_size, size_t sizeof_item);
~Gcalc_dyn_list();
Item *new_item()
{
Item *result;
if (m_free)
{
result= m_free;
m_free= m_free->next;
}
else
result= alloc_new_blk();
return result;
}
inline void free_item(Item *item)
{
item->next= m_free;
m_free= item;
}
inline void free_list(Item **list, Item **hook)
{
*hook= m_free;
m_free= *list;
}
void free_list(Item *list)
{
Item **hook= &list;
while (*hook)
hook= &(*hook)->next;
free_list(&list, hook);
}
void reset();
void cleanup();
protected:
size_t m_blk_size;
size_t m_sizeof_item;
unsigned int m_points_per_blk;
void *m_first_blk;
void **m_blk_hook;
Item *m_free;
Item *m_keep;
Item *alloc_new_blk();
void format_blk(void* block);
inline Item *ptr_add(Item *ptr, int n_items)
{
return (Item *)(((char*)ptr) + n_items * m_sizeof_item);
}
};
/* Internal Gcalc coordinates to provide the precise calculations */
#define GCALC_DIG_BASE 1000000000
typedef uint32 gcalc_digit_t;
typedef unsigned long long gcalc_coord2;
typedef gcalc_digit_t Gcalc_internal_coord;
#define GCALC_COORD_BASE 2
#define GCALC_COORD_BASE2 4
#define GCALC_COORD_BASE3 6
#define GCALC_COORD_BASE4 8
#define GCALC_COORD_BASE5 10
typedef gcalc_digit_t Gcalc_coord1[GCALC_COORD_BASE];
typedef gcalc_digit_t Gcalc_coord2[GCALC_COORD_BASE*2];
typedef gcalc_digit_t Gcalc_coord3[GCALC_COORD_BASE*3];
void gcalc_mul_coord(Gcalc_internal_coord *result, int result_len,
const Gcalc_internal_coord *a, int a_len,
const Gcalc_internal_coord *b, int b_len);
void gcalc_add_coord(Gcalc_internal_coord *result, int result_len,
const Gcalc_internal_coord *a,
const Gcalc_internal_coord *b);
void gcalc_sub_coord(Gcalc_internal_coord *result, int result_len,
const Gcalc_internal_coord *a,
const Gcalc_internal_coord *b);
int gcalc_cmp_coord(const Gcalc_internal_coord *a,
const Gcalc_internal_coord *b, int len);
/* Internal coordinates declarations end. */
typedef uint gcalc_shape_info;
/*
Gcalc_heap represents the 'dynamic list' of Info objects, that
contain information about vertexes of all the shapes that take
part in some spatial calculation. Can become quite long.
After filled, the list is usually sorted and then walked through
in the slicescan algorithm.
The Gcalc_heap and the algorithm can only operate with two
kinds of shapes - polygon and polyline. So all the spatial
objects should be represented as sets of these two.
*/
class Gcalc_heap : public Gcalc_dyn_list
{
public:
enum node_type
{
nt_shape_node,
nt_intersection,
nt_eq_node
};
class Info : public Gcalc_dyn_list::Item
{
public:
node_type type;
union
{
struct
{
/* nt_shape_node */
gcalc_shape_info shape;
Info *left;
Info *right;
double x,y;
Gcalc_coord1 ix, iy;
int top_node;
};
struct
{
/* nt_intersection */
/* Line p1-p2 supposed to intersect line p3-p4 */
const Info *p1;
const Info *p2;
const Info *p3;
const Info *p4;
void *intersection_data;
int equal_intersection;
};
struct
{
/* nt_eq_node */
const Info *node;
void *eq_data;
};
};
bool is_bottom() const
{ GCALC_DBUG_ASSERT(type == nt_shape_node); return !left; }
bool is_top() const
{ GCALC_DBUG_ASSERT(type == nt_shape_node); return top_node; }
bool is_single_node() const
{ return is_bottom() && is_top(); }
void calc_xy(double *x, double *y) const;
int equal_pi(const Info *pi) const;
#ifdef GCALC_CHECK_WITH_FLOAT
void calc_xy_ld(long double *x, long double *y) const;
#endif /*GCALC_CHECK_WITH_FLOAT*/
Info *get_next() { return (Info *)next; }
const Info *get_next() const { return (const Info *)next; }
};
Gcalc_heap(size_t blk_size=8192) :
Gcalc_dyn_list(blk_size, sizeof(Info)),
m_hook(&m_first), m_n_points(0)
{}
Info *new_point_info(double x, double y, gcalc_shape_info shape);
Info *new_intersection(const Info *p1, const Info *p2,
const Info *p3, const Info *p4);
void prepare_operation();
inline bool ready() const { return m_hook == NULL; }
Info *get_first() { return (Info *)m_first; }
const Info *get_first() const { return (const Info *)m_first; }
Gcalc_dyn_list::Item **get_last_hook() { return m_hook; }
void reset();
#ifdef GCALC_CHECK_WITH_FLOAT
long double get_double(const Gcalc_internal_coord *c) const;
#endif /*GCALC_CHECK_WITH_FLOAT*/
double coord_extent;
private:
Gcalc_dyn_list::Item *m_first;
Gcalc_dyn_list::Item **m_hook;
int m_n_points;
};
/*
the spatial object has to be represented as a set of
simple polygones and polylines to be sent to the slicescan.
Gcalc_shape_transporter class and his descendants are used to
simplify storing the information about the shape into necessary structures.
This base class only fills the Gcalc_heap with the information about
shapes and vertices.
Normally the Gcalc_shape_transporter family object is sent as a parameter
to the 'get_shapes' method of an 'spatial' object so it can pass
the spatial information about itself. The virtual methods are
treating this data in a way the caller needs.
*/
class Gcalc_shape_transporter
{
private:
Gcalc_heap::Info *m_first;
Gcalc_heap::Info *m_prev;
int m_shape_started;
void int_complete();
protected:
Gcalc_heap *m_heap;
int int_single_point(gcalc_shape_info Info, double x, double y);
int int_add_point(gcalc_shape_info Info, double x, double y);
void int_start_line()
{
DBUG_ASSERT(!m_shape_started);
m_shape_started= 1;
m_first= m_prev= NULL;
}
void int_complete_line()
{
DBUG_ASSERT(m_shape_started== 1);
int_complete();
m_shape_started= 0;
}
void int_start_ring()
{
DBUG_ASSERT(m_shape_started== 2);
m_shape_started= 3;
m_first= m_prev= NULL;
}
void int_complete_ring()
{
DBUG_ASSERT(m_shape_started== 3);
int_complete();
m_shape_started= 2;
}
void int_start_poly()
{
DBUG_ASSERT(!m_shape_started);
m_shape_started= 2;
}
void int_complete_poly()
{
DBUG_ASSERT(m_shape_started== 2);
m_shape_started= 0;
}
bool line_started() { return m_shape_started == 1; };
public:
Gcalc_shape_transporter(Gcalc_heap *heap) :
m_shape_started(0), m_heap(heap) {}
virtual int single_point(double x, double y)=0;
virtual int start_line()=0;
virtual int complete_line()=0;
virtual int start_poly()=0;
virtual int complete_poly()=0;
virtual int start_ring()=0;
virtual int complete_ring()=0;
virtual int add_point(double x, double y)=0;
virtual int start_collection(int n_objects) { return 0; }
virtual int empty_shape() { return 0; }
int start_simple_poly()
{
return start_poly() || start_ring();
}
int complete_simple_poly()
{
return complete_ring() || complete_poly();
}
virtual ~Gcalc_shape_transporter() {}
};
enum Gcalc_scan_events
{
scev_none= 0,
scev_point= 1, /* Just a new point in thread */
scev_thread= 2, /* Start of the new thread */
scev_two_threads= 4, /* A couple of new threads started */
scev_intersection= 8, /* Intersection happened */
scev_end= 16, /* Single thread finished */
scev_two_ends= 32, /* A couple of threads finished */
scev_single_point= 64 /* Got single point */
};
/*
Gcalc_scan_iterator incapsulates the slisescan algorithm.
It takes filled Gcalc_heap as an datasource. Then can be
iterated trought the vertexes and intersection points with
the step() method. After the 'step()' one usually observes
the current 'slice' to do the necessary calculations, like
looking for intersections, calculating the area, whatever.
*/
class Gcalc_scan_iterator : public Gcalc_dyn_list
{
public:
class point : public Gcalc_dyn_list::Item
{
public:
Gcalc_coord1 dx;
Gcalc_coord1 dy;
Gcalc_heap::Info *pi;
Gcalc_heap::Info *next_pi;
Gcalc_heap::Info *ev_pi;
const Gcalc_coord1 *l_border;
const Gcalc_coord1 *r_border;
point *ev_next;
Gcalc_scan_events event;
inline const point *c_get_next() const
{ return (const point *)next; }
inline bool is_bottom() const { return !next_pi; }
gcalc_shape_info get_shape() const { return pi->shape; }
inline point *get_next() { return (point *)next; }
inline const point *get_next() const { return (const point *)next; }
/* Compare the dx_dy parameters regarding the horiz_dir */
/* returns -1 if less, 0 if equal, 1 if bigger */
static int cmp_dx_dy(const Gcalc_coord1 dx_a,
const Gcalc_coord1 dy_a,
const Gcalc_coord1 dx_b,
const Gcalc_coord1 dy_b);
static int cmp_dx_dy(const Gcalc_heap::Info *p1,
const Gcalc_heap::Info *p2,
const Gcalc_heap::Info *p3,
const Gcalc_heap::Info *p4);
int cmp_dx_dy(const point *p) const;
point **next_ptr() { return (point **) &next; }
#ifndef GCALC_DBUG_OFF
unsigned int thread;
#endif /*GCALC_DBUG_OFF*/
#ifdef GCALC_CHECK_WITH_FLOAT
void calc_x(long double *x, long double y, long double ix) const;
#endif /*GCALC_CHECK_WITH_FLOAT*/
};
/* That class introduced mostly for the 'typecontrol' reason. */
/* only difference from the point classis the get_next() function. */
class event_point : public point
{
public:
inline const event_point *get_next() const
{ return (const event_point*) ev_next; }
int simple_event() const
{
return !ev_next ? (event & (scev_point | scev_end)) :
(!ev_next->ev_next && event == scev_two_ends);
}
};
class intersection_info : public Gcalc_dyn_list::Item
{
public:
point *edge_a;
point *edge_b;
Gcalc_coord2 t_a;
Gcalc_coord2 t_b;
int t_calculated;
Gcalc_coord3 x_exp;
int x_calculated;
Gcalc_coord3 y_exp;
int y_calculated;
void calc_t()
{if (!t_calculated) do_calc_t(); }
void calc_y_exp()
{ if (!y_calculated) do_calc_y(); }
void calc_x_exp()
{ if (!x_calculated) do_calc_x(); }
void do_calc_t();
void do_calc_x();
void do_calc_y();
};
class slice_state
{
public:
point *slice;
point **event_position_hook;
point *event_end;
const Gcalc_heap::Info *pi;
};
public:
Gcalc_scan_iterator(size_t blk_size= 8192);
void init(Gcalc_heap *points); /* Iterator can be reused */
void reset();
int step();
Gcalc_heap::Info *more_points() { return m_cur_pi; }
bool more_trapezoids()
{ return m_cur_pi && m_cur_pi->next; }
const point *get_bottom_points() const
{ return m_bottom_points; }
const point *get_event_position() const
{ return *state.event_position_hook; }
const point *get_event_end() const
{ return state.event_end; }
const event_point *get_events() const
{ return (const event_point *)
(*state.event_position_hook == state.event_end ?
m_bottom_points : *state.event_position_hook); }
const point *get_b_slice() const { return state.slice; }
double get_h() const;
double get_y() const;
double get_event_x() const;
double get_sp_x(const point *sp) const;
int intersection_step() const
{ return state.pi->type == Gcalc_heap::nt_intersection; }
const Gcalc_heap::Info *get_cur_pi() const
{
return state.pi;
}
private:
Gcalc_heap *m_heap;
Gcalc_heap::Info *m_cur_pi;
slice_state state;
#ifndef GCALC_DBUG_OFF
unsigned int m_cur_thread;
#endif /*GCALC_DBUG_OFF*/
point *m_bottom_points;
point **m_bottom_hook;
int node_scan();
void eq_scan();
void intersection_scan();
void remove_bottom_node();
int insert_top_node();
int add_intersection(point *sp_a, point *sp_b,
Gcalc_heap::Info *pi_from);
int add_eq_node(Gcalc_heap::Info *node, point *sp);
int add_events_for_node(point *sp_node);
point *new_slice_point()
{
point *new_point= (point *)new_item();
return new_point;
}
intersection_info *new_intersection_info(point *a, point *b)
{
intersection_info *ii= (intersection_info *)new_item();
ii->edge_a= a;
ii->edge_b= b;
ii->t_calculated= ii->x_calculated= ii->y_calculated= 0;
return ii;
}
int arrange_event(int do_sorting, int n_intersections);
static double get_pure_double(const Gcalc_internal_coord *d, int d_len);
};
/*
Gcalc_trapezoid_iterator simplifies the calculations on
the current slice of the Gcalc_scan_iterator.
One can walk through the trapezoids formed between
previous and current slices.
*/
#ifdef TMP_BLOCK
class Gcalc_trapezoid_iterator
{
protected:
const Gcalc_scan_iterator::point *sp0;
const Gcalc_scan_iterator::point *sp1;
public:
Gcalc_trapezoid_iterator(const Gcalc_scan_iterator *scan_i) :
sp0(scan_i->get_b_slice()),
sp1(scan_i->get_t_slice())
{}
inline bool more() const { return sp1 && sp1->next; }
const Gcalc_scan_iterator::point *lt() const { return sp1; }
const Gcalc_scan_iterator::point *lb() const { return sp0; }
const Gcalc_scan_iterator::point *rb() const
{
const Gcalc_scan_iterator::point *result= sp0;
while ((result= result->c_get_next())->is_bottom())
{}
return result;
}
const Gcalc_scan_iterator::point *rt() const
{ return sp1->c_get_next(); }
void operator++()
{
sp0= rb();
sp1= rt();
}
};
#endif /*TMP_BLOCK*/
/*
Gcalc_point_iterator simplifies the calculations on
the current slice of the Gcalc_scan_iterator.
One can walk through the points on the current slice.
*/
class Gcalc_point_iterator
{
protected:
const Gcalc_scan_iterator::point *sp;
public:
Gcalc_point_iterator(const Gcalc_scan_iterator *scan_i):
sp(scan_i->get_b_slice())
{}
inline bool more() const { return sp != NULL; }
inline void operator++() { sp= sp->c_get_next(); }
inline const Gcalc_scan_iterator::point *point() const { return sp; }
inline const Gcalc_heap::Info *get_pi() const { return sp->pi; }
inline gcalc_shape_info get_shape() const { return sp->get_shape(); }
inline void restart(const Gcalc_scan_iterator *scan_i)
{ sp= scan_i->get_b_slice(); }
};
#endif /*GCALC_SLICESCAN_INCLUDED*/

1427
sql/gcalc_tools.cc Normal file
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346
sql/gcalc_tools.h Normal file
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@ -0,0 +1,346 @@
/* Copyright (c) 2000, 2010 Oracle and/or its affiliates. All rights reserved.
Copyright (C) 2011 Monty Program Ab.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#ifndef GCALC_TOOLS_INCLUDED
#define GCALC_TOOLS_INCLUDED
#include "gcalc_slicescan.h"
/*
The Gcalc_function class objects are used to check for a binary relation.
The relation can be constructed with the prefix notation using predicates as
op_not (as !A)
op_union ( A || B || C... )
op_intersection ( A && B && C ... )
op_symdifference ( A+B+C+... == 1 )
op_difference ( A && !(B||C||..))
with the calls of the add_operation(operation, n_operands) method.
The relation is calculated over a set of shapes, that in turn have
to be added with the add_new_shape() method. All the 'shapes' can
be set to 0 with clear_shapes() method and single value
can be changed with the invert_state() method.
Then the value of the relation can be calculated with the count() method.
Frequently used method is find_function(Gcalc_scan_iterator it) that
iterates through the 'it' until the relation becomes TRUE.
*/
class Gcalc_function
{
private:
String shapes_buffer;
String function_buffer;
int *i_states;
int *b_states;
uint32 cur_object_id;
uint n_shapes;
int count_internal(const char *cur_func, uint set_type,
const char **end);
public:
enum value
{
v_empty= 0x0000000,
v_find_t= 0x1000000,
v_find_f= 0x2000000,
v_t_found= 0x3000000,
v_f_found= 0x4000000,
v_mask= 0x7000000
};
enum op_type
{
op_not= 0x80000000,
op_shape= 0x00000000,
op_union= 0x10000000,
op_intersection= 0x20000000,
op_symdifference= 0x30000000,
op_difference= 0x40000000,
op_repeat= 0x50000000,
op_border= 0x60000000,
op_internals= 0x70000000,
op_false= 0x08000000,
op_any= 0x78000000 /* The mask to get any of the operations */
};
enum shape_type
{
shape_point= 0,
shape_line= 1,
shape_polygon= 2,
shape_hole= 3
};
Gcalc_function() : n_shapes(0) {}
gcalc_shape_info add_new_shape(uint32 shape_id, shape_type shape_kind);
/*
Adds the leaf operation that returns the shape value.
Also adds the shape to the list of operands.
*/
int single_shape_op(shape_type shape_kind, gcalc_shape_info *si);
void add_operation(uint operation, uint32 n_operands);
void add_not_operation(op_type operation, uint32 n_operands);
uint32 get_next_expression_pos() { return function_buffer.length(); }
void add_operands_to_op(uint32 operation_pos, uint32 n_operands);
int repeat_expression(uint32 exp_pos);
void set_cur_obj(uint32 cur_obj) { cur_object_id= cur_obj; }
int reserve_shape_buffer(uint n_shapes);
int reserve_op_buffer(uint n_ops);
uint get_nshapes() const { return n_shapes; }
shape_type get_shape_kind(gcalc_shape_info si) const
{
return (shape_type) uint4korr(shapes_buffer.ptr() + (si*4));
}
void set_states(int *shape_states) { i_states= shape_states; }
int alloc_states();
void invert_i_state(gcalc_shape_info shape) { i_states[shape]^= 1; }
void set_i_state(gcalc_shape_info shape) { i_states[shape]= 1; }
void clear_i_state(gcalc_shape_info shape) { i_states[shape]= 0; }
void set_b_state(gcalc_shape_info shape) { b_states[shape]= 1; }
void clear_b_state(gcalc_shape_info shape) { b_states[shape]= 0; }
int get_state(gcalc_shape_info shape)
{ return i_states[shape] | b_states[shape]; }
int get_i_state(gcalc_shape_info shape) { return i_states[shape]; }
int get_b_state(gcalc_shape_info shape) { return b_states[shape]; }
int count()
{ return count_internal(function_buffer.ptr(), 0, 0); }
void clear_i_states();
void clear_b_states();
void reset();
int check_function(Gcalc_scan_iterator &scan_it);
};
/*
Gcalc_operation_transporter class extends the Gcalc_shape_transporter.
In addition to the parent's functionality, it fills the Gcalc_function
object so it has the function that determines the proper shape.
For example Multipolyline will be represented as an union of polylines.
*/
class Gcalc_operation_transporter : public Gcalc_shape_transporter
{
protected:
Gcalc_function *m_fn;
gcalc_shape_info m_si;
public:
Gcalc_operation_transporter(Gcalc_function *fn, Gcalc_heap *heap) :
Gcalc_shape_transporter(heap), m_fn(fn) {}
int single_point(double x, double y);
int start_line();
int complete_line();
int start_poly();
int complete_poly();
int start_ring();
int complete_ring();
int add_point(double x, double y);
int start_collection(int n_objects);
int empty_shape();
};
/*
When we calculate the result of an spatial operation like
Union or Intersection, we receive vertexes of the result
one-by-one, and probably need to treat them in variative ways.
So, the Gcalc_result_receiver class designed to get these
vertexes and construct shapes/objects out of them.
and to store the result in an appropriate format
*/
class Gcalc_result_receiver
{
String buffer;
uint32 n_points;
Gcalc_function::shape_type common_shapetype;
bool collection_result;
uint32 n_shapes;
uint32 n_holes;
Gcalc_function::shape_type cur_shape;
uint32 shape_pos;
double first_x, first_y, prev_x, prev_y;
double shape_area;
public:
Gcalc_result_receiver() : collection_result(FALSE), n_shapes(0), n_holes(0)
{}
int start_shape(Gcalc_function::shape_type shape);
int add_point(double x, double y);
int complete_shape();
int single_point(double x, double y);
int done();
void reset();
const char *result() { return buffer.ptr(); }
uint length() { return buffer.length(); }
int get_nshapes() { return n_shapes; }
int get_nholes() { return n_holes; }
int get_result_typeid();
uint32 position() { return buffer.length(); }
int move_hole(uint32 dest_position, uint32 source_position,
uint32 *position_shift);
};
/*
Gcalc_operation_reducer class incapsulates the spatial
operation functionality. It analyses the slices generated by
the slicescan and calculates the shape of the result defined
by some Gcalc_function.
*/
class Gcalc_operation_reducer : public Gcalc_dyn_list
{
public:
enum modes
{
/* Numeric values important here - careful with changing */
default_mode= 0,
prefer_big_with_holes= 1,
polygon_selfintersections_allowed= 2, /* allowed in the result */
line_selfintersections_allowed= 4 /* allowed in the result */
};
Gcalc_operation_reducer(size_t blk_size=8192);
void init(Gcalc_function *fn, modes mode= default_mode);
Gcalc_operation_reducer(Gcalc_function *fn, modes mode= default_mode,
size_t blk_size=8192);
int count_slice(Gcalc_scan_iterator *si);
int count_all(Gcalc_heap *hp);
int get_result(Gcalc_result_receiver *storage);
void reset();
#ifndef GCALC_DBUG_OFF
int n_res_points;
#endif /*GCALC_DBUG_OFF*/
class res_point : public Gcalc_dyn_list::Item
{
public:
int intersection_point;
union
{
const Gcalc_heap::Info *pi;
res_point *first_poly_node;
};
union
{
res_point *outer_poly;
uint32 poly_position;
};
res_point *up;
res_point *down;
res_point *glue;
Gcalc_function::shape_type type;
Gcalc_dyn_list::Item **prev_hook;
#ifndef GCALC_DBUG_OFF
int point_n;
#endif /*GCALC_DBUG_OFF*/
void set(const Gcalc_scan_iterator *si);
res_point *get_next() { return (res_point *)next; }
};
class active_thread : public Gcalc_dyn_list::Item
{
public:
res_point *rp;
res_point *thread_start;
const Gcalc_heap::Info *p1, *p2;
res_point *enabled() { return rp; }
active_thread *get_next() { return (active_thread *)next; }
};
class poly_instance : public Gcalc_dyn_list::Item
{
public:
uint32 *after_poly_position;
poly_instance *get_next() { return (poly_instance *)next; }
};
class line : public Gcalc_dyn_list::Item
{
public:
active_thread *t;
int incoming;
const Gcalc_scan_iterator::point *p;
line *get_next() { return (line *)next; }
};
class poly_border : public Gcalc_dyn_list::Item
{
public:
active_thread *t;
int incoming;
int prev_state;
const Gcalc_scan_iterator::point *p;
poly_border *get_next() { return (poly_border *)next; }
};
line *m_lines;
Gcalc_dyn_list::Item **m_lines_hook;
poly_border *m_poly_borders;
Gcalc_dyn_list::Item **m_poly_borders_hook;
line *new_line() { return (line *) new_item(); }
poly_border *new_poly_border() { return (poly_border *) new_item(); }
int add_line(int incoming, active_thread *t,
const Gcalc_scan_iterator::point *p);
int add_poly_border(int incoming, active_thread *t, int prev_state,
const Gcalc_scan_iterator::point *p);
protected:
Gcalc_function *m_fn;
Gcalc_dyn_list::Item **m_res_hook;
res_point *m_result;
int m_mode;
res_point *result_heap;
active_thread *m_first_active_thread;
res_point *add_res_point(Gcalc_function::shape_type type);
active_thread *new_active_thread() { return (active_thread *)new_item(); }
poly_instance *new_poly() { return (poly_instance *) new_item(); }
private:
int start_line(active_thread *t, const Gcalc_scan_iterator::point *p,
const Gcalc_scan_iterator *si);
int end_line(active_thread *t, const Gcalc_scan_iterator *si);
int connect_threads(int incoming_a, int incoming_b,
active_thread *ta, active_thread *tb,
const Gcalc_scan_iterator::point *pa,
const Gcalc_scan_iterator::point *pb,
active_thread *prev_range,
const Gcalc_scan_iterator *si,
Gcalc_function::shape_type s_t);
int add_single_point(const Gcalc_scan_iterator *si);
poly_border *get_pair_border(poly_border *b1);
int continue_range(active_thread *t, const Gcalc_heap::Info *p,
const Gcalc_heap::Info *p_next);
int continue_i_range(active_thread *t,
const Gcalc_heap::Info *ii);
int end_couple(active_thread *t0, active_thread *t1, const Gcalc_heap::Info *p);
int get_single_result(res_point *res, Gcalc_result_receiver *storage);
int get_result_thread(res_point *cur, Gcalc_result_receiver *storage,
int move_upward, res_point *first_poly_node);
int get_polygon_result(res_point *cur, Gcalc_result_receiver *storage,
res_point *first_poly_node);
int get_line_result(res_point *cur, Gcalc_result_receiver *storage);
void free_result(res_point *res);
};
#endif /*GCALC_TOOLS_INCLUDED*/

23
sql/gstream.cc
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@ -39,6 +39,29 @@ enum Gis_read_stream::enum_tok_types Gis_read_stream::get_next_toc_type()
}
bool Gis_read_stream::lookup_next_word(LEX_STRING *res)
{
const char *cur= m_cur;
skip_space();
res->str= (char*) cur;
/* The following will also test for \0 */
if ((cur >= m_limit) || !my_isvar_start(&my_charset_bin, *cur))
return 1;
/*
We can't combine the following increment with my_isvar() because
my_isvar() is a macro that would cause side effects
*/
cur++;
while ((cur < m_limit) && my_isvar(&my_charset_bin, *cur))
cur++;
res->length= (uint32) (cur - res->str);
return 0;
}
bool Gis_read_stream::get_next_word(LEX_STRING *res)
{
skip_space();

9
sql/gstream.h
View File

@ -39,6 +39,7 @@ public:
}
enum enum_tok_types get_next_toc_type();
bool lookup_next_word(LEX_STRING *res);
bool get_next_word(LEX_STRING *);
bool get_next_number(double *);
bool check_next_symbol(char);
@ -57,6 +58,14 @@ public:
m_cur++;
return 0;
}
/* Returns the next notempty character. */
char next_symbol()
{
skip_space();
if (m_cur >= m_limit)
return 0; /* EOL meet. */
return *m_cur;
}
void set_error_msg(const char *msg);
// caller should free this pointer

355
sql/item_create.cc
View File

@ -572,6 +572,19 @@ protected:
#ifdef HAVE_SPATIAL
class Create_func_mbr_contains : public Create_func_arg2
{
public:
virtual Item *create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_mbr_contains s_singleton;
protected:
Create_func_mbr_contains() {}
virtual ~Create_func_mbr_contains() {}
};
class Create_func_contains : public Create_func_arg2
{
public:
@ -812,6 +825,19 @@ protected:
#ifdef HAVE_SPATIAL
class Create_func_mbr_disjoint : public Create_func_arg2
{
public:
virtual Item *create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_mbr_disjoint s_singleton;
protected:
Create_func_mbr_disjoint() {}
virtual ~Create_func_mbr_disjoint() {}
};
class Create_func_disjoint : public Create_func_arg2
{
public:
@ -823,6 +849,19 @@ protected:
Create_func_disjoint() {}
virtual ~Create_func_disjoint() {}
};
class Create_func_distance : public Create_func_arg2
{
public:
virtual Item* create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_distance s_singleton;
protected:
Create_func_distance() {}
virtual ~Create_func_distance() {}
};
#endif
@ -896,6 +935,19 @@ protected:
#ifdef HAVE_SPATIAL
class Create_func_mbr_equals : public Create_func_arg2
{
public:
virtual Item *create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_mbr_equals s_singleton;
protected:
Create_func_mbr_equals() {}
virtual ~Create_func_mbr_equals() {}
};
class Create_func_equals : public Create_func_arg2
{
public:
@ -1224,6 +1276,19 @@ protected:
#ifdef HAVE_SPATIAL
class Create_func_mbr_intersects : public Create_func_arg2
{
public:
virtual Item *create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_mbr_intersects s_singleton;
protected:
Create_func_mbr_intersects() {}
virtual ~Create_func_mbr_intersects() {}
};
class Create_func_intersects : public Create_func_arg2
{
public:
@ -1235,7 +1300,72 @@ protected:
Create_func_intersects() {}
virtual ~Create_func_intersects() {}
};
#endif
class Create_func_intersection : public Create_func_arg2
{
public:
virtual Item* create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_intersection s_singleton;
protected:
Create_func_intersection() {}
virtual ~Create_func_intersection() {}
};
class Create_func_difference : public Create_func_arg2
{
public:
virtual Item* create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_difference s_singleton;
protected:
Create_func_difference() {}
virtual ~Create_func_difference() {}
};
class Create_func_union : public Create_func_arg2
{
public:
virtual Item* create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_union s_singleton;
protected:
Create_func_union() {}
virtual ~Create_func_union() {}
};
class Create_func_symdifference : public Create_func_arg2
{
public:
virtual Item* create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_symdifference s_singleton;
protected:
Create_func_symdifference() {}
virtual ~Create_func_symdifference() {}
};
class Create_func_buffer : public Create_func_arg2
{
public:
virtual Item* create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_buffer s_singleton;
protected:
Create_func_buffer() {}
virtual ~Create_func_buffer() {}
};
#endif /*HAVE_SPATIAL*/
class Create_func_is_free_lock : public Create_func_arg1
@ -1667,6 +1797,19 @@ protected:
#ifdef HAVE_SPATIAL
class Create_func_mbr_overlaps : public Create_func_arg2
{
public:
virtual Item *create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_mbr_overlaps s_singleton;
protected:
Create_func_mbr_overlaps() {}
virtual ~Create_func_mbr_overlaps() {}
};
class Create_func_overlaps : public Create_func_arg2
{
public:
@ -2262,6 +2405,19 @@ protected:
#ifdef HAVE_SPATIAL
class Create_func_mbr_within : public Create_func_arg2
{
public:
virtual Item *create_2_arg(THD *thd, Item *arg1, Item *arg2);
static Create_func_mbr_within s_singleton;
protected:
Create_func_mbr_within() {}
virtual ~Create_func_mbr_within() {}
};
class Create_func_within : public Create_func_arg2
{
public:
@ -2953,6 +3109,16 @@ Create_func_connection_id::create_builder(THD *thd)
#ifdef HAVE_SPATIAL
Create_func_mbr_contains Create_func_mbr_contains::s_singleton;
Item*
Create_func_mbr_contains::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_mbr_rel(arg1, arg2,
Item_func::SP_CONTAINS_FUNC);
}
Create_func_contains Create_func_contains::s_singleton;
Item*
@ -3185,6 +3351,16 @@ Create_func_dimension::create_1_arg(THD *thd, Item *arg1)
#ifdef HAVE_SPATIAL
Create_func_mbr_disjoint Create_func_mbr_disjoint::s_singleton;
Item*
Create_func_mbr_disjoint::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_mbr_rel(arg1, arg2,
Item_func::SP_DISJOINT_FUNC);
}
Create_func_disjoint Create_func_disjoint::s_singleton;
Item*
@ -3193,6 +3369,15 @@ Create_func_disjoint::create_2_arg(THD *thd, Item *arg1, Item *arg2)
return new (thd->mem_root) Item_func_spatial_rel(arg1, arg2,
Item_func::SP_DISJOINT_FUNC);
}
Create_func_distance Create_func_distance::s_singleton;
Item*
Create_func_distance::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_distance(arg1, arg2);
}
#endif
@ -3288,6 +3473,16 @@ Create_func_envelope::create_1_arg(THD *thd, Item *arg1)
#ifdef HAVE_SPATIAL
Create_func_mbr_equals Create_func_mbr_equals::s_singleton;
Item*
Create_func_mbr_equals::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_mbr_rel(arg1, arg2,
Item_func::SP_EQUALS_FUNC);
}
Create_func_equals Create_func_equals::s_singleton;
Item*
@ -3683,6 +3878,16 @@ Create_func_interiorringn::create_2_arg(THD *thd, Item *arg1, Item *arg2)
#ifdef HAVE_SPATIAL
Create_func_mbr_intersects Create_func_mbr_intersects::s_singleton;
Item*
Create_func_mbr_intersects::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_mbr_rel(arg1, arg2,
Item_func::SP_INTERSECTS_FUNC);
}
Create_func_intersects Create_func_intersects::s_singleton;
Item*
@ -3691,7 +3896,56 @@ Create_func_intersects::create_2_arg(THD *thd, Item *arg1, Item *arg2)
return new (thd->mem_root) Item_func_spatial_rel(arg1, arg2,
Item_func::SP_INTERSECTS_FUNC);
}
#endif
Create_func_intersection Create_func_intersection::s_singleton;
Item*
Create_func_intersection::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_operation(arg1, arg2,
Gcalc_function::op_intersection);
}
Create_func_difference Create_func_difference::s_singleton;
Item*
Create_func_difference::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_operation(arg1, arg2,
Gcalc_function::op_difference);
}
Create_func_union Create_func_union::s_singleton;
Item*
Create_func_union::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_operation(arg1, arg2,
Gcalc_function::op_union);
}
Create_func_symdifference Create_func_symdifference::s_singleton;
Item*
Create_func_symdifference::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_operation(arg1, arg2,
Gcalc_function::op_symdifference);
}
Create_func_buffer Create_func_buffer::s_singleton;
Item*
Create_func_buffer::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_buffer(arg1, arg2);
}
#endif /*HAVE_SPATAI*/
Create_func_is_free_lock Create_func_is_free_lock::s_singleton;
@ -4151,6 +4405,16 @@ Create_func_ord::create_1_arg(THD *thd, Item *arg1)
#ifdef HAVE_SPATIAL
Create_func_mbr_overlaps Create_func_mbr_overlaps::s_singleton;
Item*
Create_func_mbr_overlaps::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_mbr_rel(arg1, arg2,
Item_func::SP_OVERLAPS_FUNC);
}
Create_func_overlaps Create_func_overlaps::s_singleton;
Item*
@ -4703,6 +4967,16 @@ Create_func_weekofyear::create_1_arg(THD *thd, Item *arg1)
#ifdef HAVE_SPATIAL
Create_func_mbr_within Create_func_mbr_within::s_singleton;
Item*
Create_func_mbr_within::create_2_arg(THD *thd, Item *arg1, Item *arg2)
{
return new (thd->mem_root) Item_func_spatial_mbr_rel(arg1, arg2,
Item_func::SP_WITHIN_FUNC);
}
Create_func_within Create_func_within::s_singleton;
Item*
@ -4836,6 +5110,7 @@ static Native_func_registry func_array[] =
{ { C_STRING_WITH_LEN("BIN") }, BUILDER(Create_func_bin)},
{ { C_STRING_WITH_LEN("BIT_COUNT") }, BUILDER(Create_func_bit_count)},
{ { C_STRING_WITH_LEN("BIT_LENGTH") }, BUILDER(Create_func_bit_length)},
{ { C_STRING_WITH_LEN("BUFFER") }, GEOM_BUILDER(Create_func_buffer)},
{ { C_STRING_WITH_LEN("CEIL") }, BUILDER(Create_func_ceiling)},
{ { C_STRING_WITH_LEN("CEILING") }, BUILDER(Create_func_ceiling)},
{ { C_STRING_WITH_LEN("CENTROID") }, GEOM_BUILDER(Create_func_centroid)},
@ -4863,7 +5138,7 @@ static Native_func_registry func_array[] =
{ { C_STRING_WITH_LEN("DES_DECRYPT") }, BUILDER(Create_func_des_decrypt)},
{ { C_STRING_WITH_LEN("DES_ENCRYPT") }, BUILDER(Create_func_des_encrypt)},
{ { C_STRING_WITH_LEN("DIMENSION") }, GEOM_BUILDER(Create_func_dimension)},
{ { C_STRING_WITH_LEN("DISJOINT") }, GEOM_BUILDER(Create_func_disjoint)},
{ { C_STRING_WITH_LEN("DISJOINT") }, GEOM_BUILDER(Create_func_mbr_disjoint)},
{ { C_STRING_WITH_LEN("ELT") }, BUILDER(Create_func_elt)},
{ { C_STRING_WITH_LEN("ENCODE") }, BUILDER(Create_func_encode)},
{ { C_STRING_WITH_LEN("ENCRYPT") }, BUILDER(Create_func_encrypt)},
@ -4900,7 +5175,7 @@ static Native_func_registry func_array[] =
{ { C_STRING_WITH_LEN("INET_NTOA") }, BUILDER(Create_func_inet_ntoa)},
{ { C_STRING_WITH_LEN("INSTR") }, BUILDER(Create_func_instr)},
{ { C_STRING_WITH_LEN("INTERIORRINGN") }, GEOM_BUILDER(Create_func_interiorringn)},
{ { C_STRING_WITH_LEN("INTERSECTS") }, GEOM_BUILDER(Create_func_intersects)},
{ { C_STRING_WITH_LEN("INTERSECTS") }, GEOM_BUILDER(Create_func_mbr_intersects)},
{ { C_STRING_WITH_LEN("ISCLOSED") }, GEOM_BUILDER(Create_func_isclosed)},
{ { C_STRING_WITH_LEN("ISEMPTY") }, GEOM_BUILDER(Create_func_isempty)},
{ { C_STRING_WITH_LEN("ISNULL") }, BUILDER(Create_func_isnull)},
@ -4929,13 +5204,13 @@ static Native_func_registry func_array[] =
{ { C_STRING_WITH_LEN("MAKETIME") }, BUILDER(Create_func_maketime)},
{ { C_STRING_WITH_LEN("MAKE_SET") }, BUILDER(Create_func_make_set)},
{ { C_STRING_WITH_LEN("MASTER_POS_WAIT") }, BUILDER(Create_func_master_pos_wait)},
{ { C_STRING_WITH_LEN("MBRCONTAINS") }, GEOM_BUILDER(Create_func_contains)},
{ { C_STRING_WITH_LEN("MBRDISJOINT") }, GEOM_BUILDER(Create_func_disjoint)},
{ { C_STRING_WITH_LEN("MBREQUAL") }, GEOM_BUILDER(Create_func_equals)},
{ { C_STRING_WITH_LEN("MBRINTERSECTS") }, GEOM_BUILDER(Create_func_intersects)},
{ { C_STRING_WITH_LEN("MBROVERLAPS") }, GEOM_BUILDER(Create_func_overlaps)},
{ { C_STRING_WITH_LEN("MBRCONTAINS") }, GEOM_BUILDER(Create_func_mbr_contains)},
{ { C_STRING_WITH_LEN("MBRDISJOINT") }, GEOM_BUILDER(Create_func_mbr_disjoint)},
{ { C_STRING_WITH_LEN("MBREQUAL") }, GEOM_BUILDER(Create_func_mbr_equals)},
{ { C_STRING_WITH_LEN("MBRINTERSECTS") }, GEOM_BUILDER(Create_func_mbr_intersects)},
{ { C_STRING_WITH_LEN("MBROVERLAPS") }, GEOM_BUILDER(Create_func_mbr_overlaps)},
{ { C_STRING_WITH_LEN("MBRTOUCHES") }, GEOM_BUILDER(Create_func_touches)},
{ { C_STRING_WITH_LEN("MBRWITHIN") }, GEOM_BUILDER(Create_func_within)},
{ { C_STRING_WITH_LEN("MBRWITHIN") }, GEOM_BUILDER(Create_func_mbr_within)},
{ { C_STRING_WITH_LEN("MD5") }, BUILDER(Create_func_md5)},
{ { C_STRING_WITH_LEN("MLINEFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("MLINEFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
@ -4958,7 +5233,7 @@ static Native_func_registry func_array[] =
{ { C_STRING_WITH_LEN("OCT") }, BUILDER(Create_func_oct)},
{ { C_STRING_WITH_LEN("OCTET_LENGTH") }, BUILDER(Create_func_length)},
{ { C_STRING_WITH_LEN("ORD") }, BUILDER(Create_func_ord)},
{ { C_STRING_WITH_LEN("OVERLAPS") }, GEOM_BUILDER(Create_func_overlaps)},
{ { C_STRING_WITH_LEN("OVERLAPS") }, GEOM_BUILDER(Create_func_mbr_overlaps)},
{ { C_STRING_WITH_LEN("PERIOD_ADD") }, BUILDER(Create_func_period_add)},
{ { C_STRING_WITH_LEN("PERIOD_DIFF") }, BUILDER(Create_func_period_diff)},
{ { C_STRING_WITH_LEN("PI") }, BUILDER(Create_func_pi)},
@ -4993,6 +5268,64 @@ static Native_func_registry func_array[] =
{ { C_STRING_WITH_LEN("STARTPOINT") }, GEOM_BUILDER(Create_func_startpoint)},
{ { C_STRING_WITH_LEN("STRCMP") }, BUILDER(Create_func_strcmp)},
{ { C_STRING_WITH_LEN("STR_TO_DATE") }, BUILDER(Create_func_str_to_date)},
{ { C_STRING_WITH_LEN("ST_AREA") }, GEOM_BUILDER(Create_func_area)},
{ { C_STRING_WITH_LEN("ST_ASBINARY") }, GEOM_BUILDER(Create_func_as_wkb)},
{ { C_STRING_WITH_LEN("ST_ASTEXT") }, GEOM_BUILDER(Create_func_as_wkt)},
{ { C_STRING_WITH_LEN("ST_ASWKB") }, GEOM_BUILDER(Create_func_as_wkb)},
{ { C_STRING_WITH_LEN("ST_ASWKT") }, GEOM_BUILDER(Create_func_as_wkt)},
{ { C_STRING_WITH_LEN("ST_BUFFER") }, GEOM_BUILDER(Create_func_buffer)},
{ { C_STRING_WITH_LEN("ST_CENTROID") }, GEOM_BUILDER(Create_func_centroid)},
{ { C_STRING_WITH_LEN("ST_CONTAINS") }, GEOM_BUILDER(Create_func_contains)},
{ { C_STRING_WITH_LEN("ST_CROSSES") }, GEOM_BUILDER(Create_func_crosses)},
{ { C_STRING_WITH_LEN("ST_DIFFERENCE") }, GEOM_BUILDER(Create_func_difference)},
{ { C_STRING_WITH_LEN("ST_DIMENSION") }, GEOM_BUILDER(Create_func_dimension)},
{ { C_STRING_WITH_LEN("ST_DISJOINT") }, GEOM_BUILDER(Create_func_disjoint)},
{ { C_STRING_WITH_LEN("ST_DISTANCE") }, GEOM_BUILDER(Create_func_distance)},
{ { C_STRING_WITH_LEN("ST_ENDPOINT") }, GEOM_BUILDER(Create_func_endpoint)},
{ { C_STRING_WITH_LEN("ST_ENVELOPE") }, GEOM_BUILDER(Create_func_envelope)},
{ { C_STRING_WITH_LEN("ST_EQUALS") }, GEOM_BUILDER(Create_func_equals)},
{ { C_STRING_WITH_LEN("ST_EXTERIORRING") }, GEOM_BUILDER(Create_func_exteriorring)},
{ { C_STRING_WITH_LEN("ST_GEOMCOLLFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_GEOMCOLLFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_GEOMETRYCOLLECTIONFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_GEOMETRYCOLLECTIONFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_GEOMETRYFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_GEOMETRYFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_GEOMETRYN") }, GEOM_BUILDER(Create_func_geometryn)},
{ { C_STRING_WITH_LEN("ST_GEOMETRYTYPE") }, GEOM_BUILDER(Create_func_geometry_type)},
{ { C_STRING_WITH_LEN("ST_GEOMFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_GEOMFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_EQUALS") }, GEOM_BUILDER(Create_func_equals)},
{ { C_STRING_WITH_LEN("ST_INTERIORRINGN") }, GEOM_BUILDER(Create_func_interiorringn)},
{ { C_STRING_WITH_LEN("ST_INTERSECTS") }, GEOM_BUILDER(Create_func_intersects)},
{ { C_STRING_WITH_LEN("ST_INTERSECTION") }, GEOM_BUILDER(Create_func_intersection)},
{ { C_STRING_WITH_LEN("ST_ISCLOSED") }, GEOM_BUILDER(Create_func_isclosed)},
{ { C_STRING_WITH_LEN("ST_ISEMPTY") }, GEOM_BUILDER(Create_func_isempty)},
{ { C_STRING_WITH_LEN("ST_ISSIMPLE") }, GEOM_BUILDER(Create_func_issimple)},
{ { C_STRING_WITH_LEN("ST_LENGTH") }, GEOM_BUILDER(Create_func_glength)},
{ { C_STRING_WITH_LEN("ST_LINEFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_LINEFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_LINESTRINGFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_LINESTRINGFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_NUMGEOMETRIES") }, GEOM_BUILDER(Create_func_numgeometries)},
{ { C_STRING_WITH_LEN("ST_NUMINTERIORRINGS") }, GEOM_BUILDER(Create_func_numinteriorring)},
{ { C_STRING_WITH_LEN("ST_NUMPOINTS") }, GEOM_BUILDER(Create_func_numpoints)},
{ { C_STRING_WITH_LEN("ST_OVERLAPS") }, GEOM_BUILDER(Create_func_overlaps)},
{ { C_STRING_WITH_LEN("ST_POINTFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_POINTFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_POINTN") }, GEOM_BUILDER(Create_func_pointn)},
{ { C_STRING_WITH_LEN("ST_POLYFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_POLYFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_POLYGONFROMTEXT") }, GEOM_BUILDER(Create_func_geometry_from_text)},
{ { C_STRING_WITH_LEN("ST_POLYGONFROMWKB") }, GEOM_BUILDER(Create_func_geometry_from_wkb)},
{ { C_STRING_WITH_LEN("ST_SRID") }, GEOM_BUILDER(Create_func_srid)},
{ { C_STRING_WITH_LEN("ST_STARTPOINT") }, GEOM_BUILDER(Create_func_startpoint)},
{ { C_STRING_WITH_LEN("ST_SYMDIFFERENCE") }, GEOM_BUILDER(Create_func_symdifference)},
{ { C_STRING_WITH_LEN("ST_TOUCHES") }, GEOM_BUILDER(Create_func_touches)},
{ { C_STRING_WITH_LEN("ST_UNION") }, GEOM_BUILDER(Create_func_union)},
{ { C_STRING_WITH_LEN("ST_WITHIN") }, GEOM_BUILDER(Create_func_within)},
{ { C_STRING_WITH_LEN("ST_X") }, GEOM_BUILDER(Create_func_x)},
{ { C_STRING_WITH_LEN("ST_Y") }, GEOM_BUILDER(Create_func_y)},
{ { C_STRING_WITH_LEN("SUBSTRING_INDEX") }, BUILDER(Create_func_substr_index)},
{ { C_STRING_WITH_LEN("SUBTIME") }, BUILDER(Create_func_subtime)},
{ { C_STRING_WITH_LEN("TAN") }, BUILDER(Create_func_tan)},

1101
sql/item_geofunc.cc
View File

File diff suppressed because it is too large Load Diff

233
sql/item_geofunc.h
View File

@ -1,4 +1,8 @@
/* Copyright (c) 2003, 2011, Oracle and/or its affiliates.
#ifndef ITEM_GEOFUNC_INCLUDED
#define ITEM_GEOFUNC_INCLUDED
/* Copyright (c) 2000, 2010 Oracle and/or its affiliates. All rights reserved.
Copyright (C) 2011 Monty Program Ab.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
@ -10,8 +14,8 @@
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
along with this program; if not, write to the Free Software Foundation,
51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA */
/* This file defines all spatial functions */
@ -22,6 +26,9 @@
#pragma interface /* gcc class implementation */
#endif
#include "gcalc_slicescan.h"
#include "gcalc_tools.h"
class Item_geometry_func: public Item_str_func
{
public:
@ -41,7 +48,7 @@ class Item_func_geometry_from_text: public Item_geometry_func
public:
Item_func_geometry_from_text(Item *a) :Item_geometry_func(a) {}
Item_func_geometry_from_text(Item *a, Item *srid) :Item_geometry_func(a, srid) {}
const char *func_name() const { return "geometryfromtext"; }
const char *func_name() const { return "st_geometryfromtext"; }
String *val_str(String *);
};
@ -50,7 +57,7 @@ class Item_func_geometry_from_wkb: public Item_geometry_func
public:
Item_func_geometry_from_wkb(Item *a): Item_geometry_func(a) {}
Item_func_geometry_from_wkb(Item *a, Item *srid): Item_geometry_func(a, srid) {}
const char *func_name() const { return "geometryfromwkb"; }
const char *func_name() const { return "st_geometryfromwkb"; }
String *val_str(String *);
};
@ -58,7 +65,7 @@ class Item_func_as_wkt: public Item_str_func
{
public:
Item_func_as_wkt(Item *a): Item_str_func(a) {}
const char *func_name() const { return "astext"; }
const char *func_name() const { return "st_astext"; }
String *val_str(String *);
void fix_length_and_dec();
};
@ -67,7 +74,7 @@ class Item_func_as_wkb: public Item_geometry_func
{
public:
Item_func_as_wkb(Item *a): Item_geometry_func(a) {}
const char *func_name() const { return "aswkb"; }
const char *func_name() const { return "st_aswkb"; }
String *val_str(String *);
enum_field_types field_type() const { return MYSQL_TYPE_BLOB; }
};
@ -77,10 +84,11 @@ class Item_func_geometry_type: public Item_str_func
public:
Item_func_geometry_type(Item *a): Item_str_func(a) {}
String *val_str(String *);
const char *func_name() const { return "geometrytype"; }
const char *func_name() const { return "st_geometrytype"; }
void fix_length_and_dec()
{
max_length=20; // "GeometryCollection" is the most long
// "GeometryCollection" is the longest
max_length= 20;
maybe_null= 1;
};
};
@ -89,7 +97,7 @@ class Item_func_centroid: public Item_geometry_func
{
public:
Item_func_centroid(Item *a): Item_geometry_func(a) {}
const char *func_name() const { return "centroid"; }
const char *func_name() const { return "st_centroid"; }
String *val_str(String *);
Field::geometry_type get_geometry_type() const;
};
@ -98,7 +106,7 @@ class Item_func_envelope: public Item_geometry_func
{
public:
Item_func_envelope(Item *a): Item_geometry_func(a) {}
const char *func_name() const { return "envelope"; }
const char *func_name() const { return "st_envelope"; }
String *val_str(String *);
Field::geometry_type get_geometry_type() const;
};
@ -108,7 +116,7 @@ class Item_func_point: public Item_geometry_func
public:
Item_func_point(Item *a, Item *b): Item_geometry_func(a, b) {}
Item_func_point(Item *a, Item *b, Item *srid): Item_geometry_func(a, b, srid) {}
const char *func_name() const { return "point"; }
const char *func_name() const { return "st_point"; }
String *val_str(String *);
Field::geometry_type get_geometry_type() const;
};
@ -124,11 +132,11 @@ public:
switch (decomp_func)
{
case SP_STARTPOINT:
return "startpoint";
return "st_startpoint";
case SP_ENDPOINT:
return "endpoint";
return "st_endpoint";
case SP_EXTERIORRING:
return "exteriorring";
return "st_exteriorring";
default:
DBUG_ASSERT(0); // Should never happened
return "spatial_decomp_unknown";
@ -148,11 +156,11 @@ public:
switch (decomp_func_n)
{
case SP_POINTN:
return "pointn";
return "st_pointn";
case SP_GEOMETRYN:
return "geometryn";
return "st_geometryn";
case SP_INTERIORRINGN:
return "interiorringn";
return "st_interiorringn";
default:
DBUG_ASSERT(0); // Should never happened
return "spatial_decomp_n_unknown";
@ -191,57 +199,53 @@ public:
}
}
const char *func_name() const { return "multipoint"; }
const char *func_name() const { return "st_multipoint"; }
};
/*
Spatial relations
*/
class Item_func_spatial_rel: public Item_bool_func2
class Item_func_spatial_mbr_rel: public Item_bool_func2
{
enum Functype spatial_rel;
public:
Item_func_spatial_rel(Item *a,Item *b, enum Functype sp_rel) :
Item_func_spatial_mbr_rel(Item *a,Item *b, enum Functype sp_rel) :
Item_bool_func2(a,b) { spatial_rel = sp_rel; }
longlong val_int();
enum Functype functype() const
{
switch (spatial_rel) {
case SP_CONTAINS_FUNC:
return SP_WITHIN_FUNC;
case SP_WITHIN_FUNC:
return SP_CONTAINS_FUNC;
default:
return spatial_rel;
}
enum Functype rev_functype() const { return spatial_rel; }
const char *func_name() const;
virtual inline void print(String *str, enum_query_type query_type)
{
Item_func::print(str, query_type);
}
void fix_length_and_dec() { maybe_null= 1; }
bool is_null() { (void) val_int(); return null_value; }
};
class Item_func_spatial_rel: public Item_bool_func2
{
enum Functype spatial_rel;
Gcalc_heap collector;
Gcalc_scan_iterator scan_it;
Gcalc_function func;
String tmp_value1,tmp_value2;
public:
Item_func_spatial_rel(Item *a,Item *b, enum Functype sp_rel);
virtual ~Item_func_spatial_rel();
longlong val_int();
enum Functype functype() const
{
return spatial_rel;
}
enum Functype rev_functype() const { return spatial_rel; }
const char *func_name() const
{
switch (spatial_rel) {
case SP_CONTAINS_FUNC:
return "contains";
case SP_WITHIN_FUNC:
return "within";
case SP_EQUALS_FUNC:
return "equals";
case SP_DISJOINT_FUNC:
return "disjoint";
case SP_INTERSECTS_FUNC:
return "intersects";
case SP_TOUCHES_FUNC:
return "touches";
case SP_CROSSES_FUNC:
return "crosses";
case SP_OVERLAPS_FUNC:
return "overlaps";
default:
DBUG_ASSERT(0); // Should never happened
return "sp_unknown";
}
}
const char *func_name() const;
virtual inline void print(String *str, enum_query_type query_type)
{
Item_func::print(str, query_type);
@ -251,23 +255,109 @@ public:
bool is_null() { (void) val_int(); return null_value; }
};
/*
Spatial operations
*/
class Item_func_spatial_operation: public Item_geometry_func
{
public:
Gcalc_function::op_type spatial_op;
Gcalc_heap collector;
Gcalc_function func;
Gcalc_scan_iterator scan_it;
Gcalc_result_receiver res_receiver;
Gcalc_operation_reducer operation;
String tmp_value1,tmp_value2;
public:
Item_func_spatial_operation(Item *a,Item *b, Gcalc_function::op_type sp_op) :
Item_geometry_func(a, b), spatial_op(sp_op)
{}
virtual ~Item_func_spatial_operation();
String *val_str(String *);
const char *func_name() const;
virtual inline void print(String *str, enum_query_type query_type)
{
Item_func::print(str, query_type);
}
};
class Item_func_buffer: public Item_geometry_func
{
protected:
class Transporter : public Gcalc_operation_transporter
{
int m_npoints;
double m_d;
double x1,y1,x2,y2;
double x00,y00,x01,y01;
int add_edge_buffer(double x3, double y3, bool round_p1, bool round_p2);
int add_last_edge_buffer();
int add_point_buffer(double x, double y);
int complete();
int m_nshapes;
Gcalc_function::op_type buffer_op;
int last_shape_pos;
bool skip_line;
public:
Transporter(Gcalc_function *fn, Gcalc_heap *heap, double d) :
Gcalc_operation_transporter(fn, heap), m_npoints(0), m_d(d),
m_nshapes(0), buffer_op((d > 0.0) ? Gcalc_function::op_union :
Gcalc_function::op_difference),
skip_line(FALSE)
{}
int single_point(double x, double y);
int start_line();
int complete_line();
int start_poly();
int complete_poly();
int start_ring();
int complete_ring();
int add_point(double x, double y);
int start_collection(int n_objects);
};
Gcalc_heap collector;
Gcalc_function func;
Gcalc_scan_iterator scan_it;
Gcalc_result_receiver res_receiver;
Gcalc_operation_reducer operation;
String tmp_value;
public:
Item_func_buffer(Item *obj, Item *distance):
Item_geometry_func(obj, distance) {}
const char *func_name() const { return "st_buffer"; }
String *val_str(String *);
};
class Item_func_isempty: public Item_bool_func
{
public:
Item_func_isempty(Item *a): Item_bool_func(a) {}
longlong val_int();
optimize_type select_optimize() const { return OPTIMIZE_NONE; }
const char *func_name() const { return "isempty"; }
const char *func_name() const { return "st_isempty"; }
void fix_length_and_dec() { maybe_null= 1; }
};
class Item_func_issimple: public Item_bool_func
{
Gcalc_heap collector;
Gcalc_function func;
Gcalc_scan_iterator scan_it;
String tmp;
public:
Item_func_issimple(Item *a): Item_bool_func(a) {}
longlong val_int();
optimize_type select_optimize() const { return OPTIMIZE_NONE; }
const char *func_name() const { return "issimple"; }
const char *func_name() const { return "st_issimple"; }
void fix_length_and_dec() { maybe_null= 1; }
};
@ -277,7 +367,7 @@ public:
Item_func_isclosed(Item *a): Item_bool_func(a) {}
longlong val_int();
optimize_type select_optimize() const { return OPTIMIZE_NONE; }
const char *func_name() const { return "isclosed"; }
const char *func_name() const { return "st_isclosed"; }
void fix_length_and_dec() { maybe_null= 1; }
};
@ -287,7 +377,7 @@ class Item_func_dimension: public Item_int_func
public:
Item_func_dimension(Item *a): Item_int_func(a) {}
longlong val_int();
const char *func_name() const { return "dimension"; }
const char *func_name() const { return "st_dimension"; }
void fix_length_and_dec() { max_length= 10; maybe_null= 1; }
};
@ -297,7 +387,7 @@ class Item_func_x: public Item_real_func
public:
Item_func_x(Item *a): Item_real_func(a) {}
double val_real();
const char *func_name() const { return "x"; }
const char *func_name() const { return "st_x"; }
void fix_length_and_dec()
{
Item_real_func::fix_length_and_dec();
@ -312,7 +402,7 @@ class Item_func_y: public Item_real_func
public:
Item_func_y(Item *a): Item_real_func(a) {}
double val_real();
const char *func_name() const { return "y"; }
const char *func_name() const { return "st_y"; }
void fix_length_and_dec()
{
Item_real_func::fix_length_and_dec();
@ -327,7 +417,7 @@ class Item_func_numgeometries: public Item_int_func
public:
Item_func_numgeometries(Item *a): Item_int_func(a) {}
longlong val_int();
const char *func_name() const { return "numgeometries"; }
const char *func_name() const { return "st_numgeometries"; }
void fix_length_and_dec() { max_length= 10; maybe_null= 1; }
};
@ -338,7 +428,7 @@ class Item_func_numinteriorring: public Item_int_func
public:
Item_func_numinteriorring(Item *a): Item_int_func(a) {}
longlong val_int();
const char *func_name() const { return "numinteriorrings"; }
const char *func_name() const { return "st_numinteriorrings"; }
void fix_length_and_dec() { max_length= 10; maybe_null= 1; }
};
@ -349,7 +439,7 @@ class Item_func_numpoints: public Item_int_func
public:
Item_func_numpoints(Item *a): Item_int_func(a) {}
longlong val_int();
const char *func_name() const { return "numpoints"; }
const char *func_name() const { return "st_numpoints"; }
void fix_length_and_dec() { max_length= 10; maybe_null= 1; }
};
@ -360,7 +450,7 @@ class Item_func_area: public Item_real_func
public:
Item_func_area(Item *a): Item_real_func(a) {}
double val_real();
const char *func_name() const { return "area"; }
const char *func_name() const { return "st_area"; }
void fix_length_and_dec()
{
Item_real_func::fix_length_and_dec();
@ -375,7 +465,7 @@ class Item_func_glength: public Item_real_func
public:
Item_func_glength(Item *a): Item_real_func(a) {}
double val_real();
const char *func_name() const { return "glength"; }
const char *func_name() const { return "st_length"; }
void fix_length_and_dec()
{
Item_real_func::fix_length_and_dec();
@ -394,11 +484,26 @@ public:
void fix_length_and_dec() { max_length= 10; maybe_null= 1; }
};
class Item_func_distance: public Item_real_func
{
String tmp_value1;
String tmp_value2;
Gcalc_heap collector;
Gcalc_function func;
Gcalc_scan_iterator scan_it;
public:
Item_func_distance(Item *a, Item *b): Item_real_func(a, b) {}
double val_real();
const char *func_name() const { return "st_distance"; }
};
#define GEOM_NEW(thd, obj_constructor) new (thd->mem_root) obj_constructor
#else /*HAVE_SPATIAL*/
#define GEOM_NEW(thd, obj_constructor) NULL
#endif
#endif /*HAVE_SPATIAL*/
#endif /*ITEM_GEOFUNC_INCLUDED*/

166
sql/plistsort.c Normal file
View File

@ -0,0 +1,166 @@
/* Copyright (c) 2000, 2010 Oracle and/or its affiliates. All rights reserved.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/*
things to define before including the file:
#define LS_LIST_ITEM ListItem
#define LS_COMPARE_FUNC_DECL compare_func var_name,
#define LS_COMPARE_FUNC_CALL(list_el1, list_el2) (*var_name)(list_el1, list_el2)
#define LS_NEXT(A) (A)->next
#define LS_SET_NEXT(A,val) (A)->next= val
#define LS_P_NEXT(A) &(A)->next
#define LS_NAME plistsort
#define LS_SCOPE static
#define LS_STRUCT_NAME ls_struct_name
*/
typedef struct LS_STRUCT_NAME
{
LS_LIST_ITEM *list1;
int list_len;
int return_point;
} LS_STRUCT_NAME;
LS_SCOPE LS_LIST_ITEM* LS_NAME(LS_COMPARE_FUNC_DECL LS_LIST_ITEM *list, int list_len)
{
LS_LIST_ITEM *list_end;
LS_LIST_ITEM *sorted_list;
struct LS_STRUCT_NAME stack[63], *sp= stack;
if (list_len < 2)
return list;
sp->list_len= list_len;
sp->return_point= 2;
recursion_point:
if (sp->list_len < 4)
{
LS_LIST_ITEM *e1, *e2;
sorted_list= list;
e1= LS_NEXT(sorted_list);
list_end= LS_NEXT(e1);
if (LS_COMPARE_FUNC_CALL(sorted_list, e1))
{
sorted_list= e1;
e1= list;
}
if (sp->list_len == 2)
{
LS_SET_NEXT(sorted_list, e1);
LS_SET_NEXT(e1, NULL);
goto exit_point;
}
e2= list_end;
list_end= LS_NEXT(e2);
if (LS_COMPARE_FUNC_CALL(e1, e2))
{
{
LS_LIST_ITEM *tmp_e= e1;
e1= e2;
e2= tmp_e;
}
if (LS_COMPARE_FUNC_CALL(sorted_list, e1))
{
LS_LIST_ITEM *tmp_e= sorted_list;
sorted_list= e1;
e1= tmp_e;
}
}
LS_SET_NEXT(sorted_list, e1);
LS_SET_NEXT(e1, e2);
LS_SET_NEXT(e2, NULL);
goto exit_point;
}
{
register struct LS_STRUCT_NAME *sp0= sp++;
sp->list_len= sp0->list_len >> 1;
sp0->list_len-= sp->list_len;
sp->return_point= 0;
}
goto recursion_point;
return_point0:
sp->list1= sorted_list;
{
register struct LS_STRUCT_NAME *sp0= sp++;
list= list_end;
sp->list_len= sp0->list_len;
sp->return_point= 1;
}
goto recursion_point;
return_point1:
{
register LS_LIST_ITEM **hook= &sorted_list;
register LS_LIST_ITEM *list1= sp->list1;
register LS_LIST_ITEM *list2= sorted_list;
if (LS_COMPARE_FUNC_CALL(list1, list2))
{
LS_LIST_ITEM *tmp_e= list2;
list2= list1;
list1= tmp_e;
}
for (;;)
{
*hook= list1;
do
{
if (!(list1= *(hook= LS_P_NEXT(list1))))
{
*hook= list2;
goto exit_point;
}
} while (LS_COMPARE_FUNC_CALL(list2, list1));
*hook= list2;
do
{
if (!(list2= *(hook= LS_P_NEXT(list2))))
{
*hook= list1;
goto exit_point;
}
} while (LS_COMPARE_FUNC_CALL(list1, list2));
}
}
exit_point:
switch ((sp--)->return_point)
{
case 0: goto return_point0;
case 1: goto return_point1;
default:;
}
return sorted_list;
}
#undef LS_LIST_ITEM
#undef LS_NEXT
#undef LS_SET_NEXT
#undef LS_P_NEXT
#undef LS_NAME
#undef LS_STRUCT_NAME
#undef LS_SCOPE
#undef LS_COMPARE_FUNC_DECL
#undef LS_COMPARE_FUNC_CALL

2
sql/share/errmsg.txt
View File

@ -6288,6 +6288,8 @@ ER_QUERY_CACHE_IS_DISABLED
eng "Query cache is disabled (resize or similar command in progress); repeat this command later"
ER_QUERY_CACHE_IS_GLOBALY_DISABLED
eng "Query cache is globally disabled and you can't enable it only for this session"
ER_SPATIAL_MUST_HAVE_GEOM_COL 42000
eng "A SPATIAL index may only contain a geometrical type column"
ER_VIEW_ORDERBY_IGNORED
eng "View '%-.192s'.'%-.192s' ORDER BY clause ignored because there is other ORDER BY clause already."
ER_CONNECTION_KILLED 70100

694
sql/spatial.cc
View File

File diff suppressed because it is too large Load Diff

60
sql/spatial.h
View File

@ -1,4 +1,4 @@
/* Copyright (C) 2002-2006 MySQL AB
/* Copyright (c) 2002, 2010, Oracle and/or its affiliates. All rights reserved.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
@ -10,14 +10,19 @@
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
along with this program; if not, write to the Free Software Foundation,
51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA */
#ifndef _spatial_h
#define _spatial_h
#include "sql_string.h" /* String, LEX_STRING */
#include <my_compiler.h>
#ifdef HAVE_SPATIAL
#include "gcalc_tools.h"
const uint SRID_SIZE= 4;
const uint SIZEOF_STORED_DOUBLE= 8;
const uint POINT_DATA_SIZE= SIZEOF_STORED_DOUBLE*2;
@ -242,16 +247,19 @@ public:
virtual const Class_info *get_class_info() const=0;
virtual uint32 get_data_size() const=0;
virtual bool init_from_wkt(Gis_read_stream *trs, String *wkb)=0;
/* returns the length of the wkb that was read */
virtual uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo,
String *res)=0;
virtual uint init_from_opresult(String *bin,
const char *opres, uint res_len)
{ return init_from_wkb(opres + 4, UINT_MAX32, wkb_ndr, bin) + 4; }
virtual bool get_data_as_wkt(String *txt, const char **end) const=0;
virtual bool get_mbr(MBR *mbr, const char **end) const=0;
virtual bool dimension(uint32 *dim, const char **end) const=0;
virtual int get_x(double *x) const { return -1; }
virtual int get_y(double *y) const { return -1; }
virtual int geom_length(double *len) const { return -1; }
virtual int geom_length(double *len, const char **end) const { return -1; }
virtual int area(double *ar, const char **end) const { return -1;}
virtual int is_closed(int *closed) const { return -1; }
virtual int num_interior_ring(uint32 *n_int_rings) const { return -1; }
@ -264,28 +272,21 @@ public:
virtual int point_n(uint32 num, String *result) const { return -1; }
virtual int interior_ring_n(uint32 num, String *result) const { return -1; }
virtual int geometry_n(uint32 num, String *result) const { return -1; }
virtual int store_shapes(Gcalc_shape_transporter *trn) const=0;
public:
static Geometry *create_by_typeid(Geometry_buffer *buffer, int type_id);
static Geometry *construct(Geometry_buffer *buffer,
const char *data, uint32 data_len);
static Geometry *create_from_wkt(Geometry_buffer *buffer,
Gis_read_stream *trs, String *wkt,
bool init_stream=1);
static Geometry *create_from_wkb(Geometry_buffer *buffer, const char *wkb,
uint32 len, String *res);
int as_wkt(String *wkt, const char **end)
{
uint32 len= (uint) get_class_info()->m_name.length;
if (wkt->reserve(len + 2, 512))
return 1;
wkt->qs_append(get_class_info()->m_name.str, len);
wkt->qs_append('(');
if (get_data_as_wkt(wkt, end))
return 1;
wkt->qs_append(')');
return 0;
}
static Geometry *create_from_wkb(Geometry_buffer *buffer,
const char *wkb, uint32 len, String *res);
static int create_from_opresult(Geometry_buffer *g_buf,
String *res, Gcalc_result_receiver &rr);
int as_wkt(String *wkt, const char **end);
inline void set_data_ptr(const char *data, uint32 data_len)
{
@ -363,12 +364,15 @@ public:
return 0;
}
int geom_length(double *len, const char **end) const;
int area(double *ar, const char **end) const;
bool dimension(uint32 *dim, const char **end) const
{
*dim= 0;
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
@ -385,7 +389,8 @@ public:
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int geom_length(double *len) const;
int geom_length(double *len, const char **end) const;
int area(double *ar, const char **end) const;
int is_closed(int *closed) const;
int num_points(uint32 *n_points) const;
int start_point(String *point) const;
@ -397,6 +402,7 @@ public:
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
@ -411,6 +417,7 @@ public:
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
uint init_from_opresult(String *bin, const char *opres, uint res_len);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int area(double *ar, const char **end) const;
@ -425,6 +432,7 @@ public:
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
@ -439,6 +447,7 @@ public:
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
uint init_from_opresult(String *bin, const char *opres, uint res_len);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int num_geometries(uint32 *num) const;
@ -449,6 +458,7 @@ public:
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
@ -463,11 +473,12 @@ public:
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
uint init_from_opresult(String *bin, const char *opres, uint res_len);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int num_geometries(uint32 *num) const;
int geometry_n(uint32 num, String *result) const;
int geom_length(double *len) const;
int geom_length(double *len, const char **end) const;
int is_closed(int *closed) const;
bool dimension(uint32 *dim, const char **end) const
{
@ -475,6 +486,7 @@ public:
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
@ -501,7 +513,9 @@ public:
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
uint init_from_opresult(String *bin, const char *opres, uint res_len);
};
@ -515,11 +529,15 @@ public:
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
uint init_from_opresult(String *bin, const char *opres, uint res_len);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int area(double *ar, const char **end) const;
int geom_length(double *len, const char **end) const;
int num_geometries(uint32 *num) const;
int geometry_n(uint32 num, String *result) const;
bool dimension(uint32 *dim, const char **end) const;
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};

10
sql/sql_table.cc
View File

@ -3216,11 +3216,19 @@ mysql_prepare_create_table(THD *thd, HA_CREATE_INFO *create_info,
{
column->length*= sql_field->charset->mbmaxlen;
if (key->type == Key::SPATIAL && column->length)
if (key->type == Key::SPATIAL)
{
if (column->length)
{
my_error(ER_WRONG_SUB_KEY, MYF(0));
DBUG_RETURN(TRUE);
}
if (!f_is_geom(sql_field->pack_flag))
{
my_error(ER_SPATIAL_MUST_HAVE_GEOM_COL, MYF(0));
DBUG_RETURN(TRUE);
}
}
if (f_is_blob(sql_field->pack_flag) ||
(f_is_geom(sql_field->pack_flag) && key->type != Key::SPATIAL))