SpatiaLite - Tipps und Tricks: Unterschied zwischen den Versionen
Stefan (Diskussion | Beiträge) |
Stefan (Diskussion | Beiträge) |
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| (8 dazwischenliegende Versionen desselben Benutzers werden nicht angezeigt) | |||
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== Queries mit Spatial Index == | == Queries mit Spatial Index == | ||
Um den Index von SpatiaLite zu verwenden ist eine Subquery nötig: | Um den Index von SpatiaLite zu verwenden ist eine Subquery nötig (DB Orte-Fluesse-Gemeinden): | ||
Beispiel: Aus... | Beispiel: Aus... | ||
SELECT pt.ROWID, pt.PKUID, pt.NAME, pt.Geometry, po.Name | SELECT pt.ROWID, pt.PKUID, pt.NAME, pt.Geometry, po.Name | ||
FROM orte AS pt, gemeinden AS po | FROM orte AS pt, gemeinden AS po | ||
WHERE | WHERE ST_Within(pt.Geometry, po.Geometry); | ||
wird... | wird (für <3.x)... | ||
SELECT pt.ROWID, pt.PKUID, pt.NAME, pt.Geometry, po.Name | CREATE TABLE orte_name AS | ||
SELECT pt.PKUID, pt.NAME, pt.Geometry, po.Name AS GEMEINDE | |||
FROM orte AS pt, gemeinden AS po | |||
WHERE ST_Within(pt.Geometry, po.Geometry) | |||
AND pt.ROWID IN ( | |||
SELECT pkid FROM idx_Orte_Geometry | |||
WHERE pkid MATCH RTreeIntersects( | |||
MbrMinX(po.Geometry), MbrMinY(po.Geometry), | |||
MbrMaxX(po.Geometry), MbrMaxY(po.Geometry)) | |||
ORDER BY 1 | |||
); | |||
bzw. (ab 3.x)... | |||
CREATE TABLE orte_name AS | |||
SELECT pt.PKUID, pt.NAME, pt.Geometry, po.Name AS GEMEINDE | |||
FROM orte AS pt, gemeinden AS po | FROM orte AS pt, gemeinden AS po | ||
WHERE | WHERE ST_Within(pt.Geometry, po.Geometry) | ||
AND pt.ROWID IN ( | AND pt.ROWID IN ( | ||
SELECT ROWID FROM | SELECT ROWID FROM SpatialIndex | ||
WHERE | WHERE f_table_name = 'Orte' AND | ||
search_frame = po.Geometry | |||
ORDER BY 1 | |||
); | ); | ||
== Drei Arten von Spatial Index-Syntax == | == Drei Arten von Spatial Index-Syntax == | ||
The R*Tree represents an efficient way to spatial filtering on the basis of MBR | The R*Tree represents an efficient way to spatial filtering on the basis of MBR (aka BBOX) quick comparisons; for any precise spatial evaluation you are expected to use "true" spatial functions, such as ST_Contains(), ST_Within(), ST_Disjoint(), ST_Intersects(), etc.. | ||
One can access the R*Tree following *three* alternative approaches: e.g. | One can access the R*Tree following *three* alternative approaches: e.g. | ||
| Zeile 34: | Zeile 48: | ||
); | ); | ||
2) Geometry Call-Backs interface (valid vor | 2) Geometry Call-Backs interface (valid vor version 2.6; deprecated in 3.x) | ||
SELECT Name FROM GeoNames | SELECT Name FROM GeoNames | ||
WHERE ROWID IN ( | WHERE ROWID IN ( | ||
| Zeile 50: | Zeile 64: | ||
); | ); | ||
There is no real difference between all them. It's mainly syntactic sugar; performances is the same, because the underlaying R*Tree implementation always is one and the same. The ugly details: What's really needed is the RTreeIntersects() callback function. But we already had MbrsWithin() and MbrsContains(): so applying the same approach for geometry callbacks functions accessing the R*Tree looked apparently good. Unfortunately this is not at all applicable to R*Tree callbacks: the internal logic implemented by SQLite is strictly bounded to "intersects". Any attempt to implement "within" or "contains" logic simply causes the whole callbacks chain to fail. So, *never* use RTreeContains and/or RTreeWithin; always use RTreeIntersects instead. Definitive solution: SpatiaLite v.3.0.0 "stable" will *DEPRECATE* both RTreeWithin and RTreeContains. They'll simply become alias-names for RTreeIntersects. | |||
[[Kategorie:SQLite]] | |||
Aktuelle Version vom 25. April 2012, 06:20 Uhr
Siehe auch SpatiaLite.
Queries mit Spatial Index
Um den Index von SpatiaLite zu verwenden ist eine Subquery nötig (DB Orte-Fluesse-Gemeinden):
Beispiel: Aus...
SELECT pt.ROWID, pt.PKUID, pt.NAME, pt.Geometry, po.Name FROM orte AS pt, gemeinden AS po WHERE ST_Within(pt.Geometry, po.Geometry);
wird (für <3.x)...
CREATE TABLE orte_name AS
SELECT pt.PKUID, pt.NAME, pt.Geometry, po.Name AS GEMEINDE
FROM orte AS pt, gemeinden AS po
WHERE ST_Within(pt.Geometry, po.Geometry)
AND pt.ROWID IN (
SELECT pkid FROM idx_Orte_Geometry
WHERE pkid MATCH RTreeIntersects(
MbrMinX(po.Geometry), MbrMinY(po.Geometry),
MbrMaxX(po.Geometry), MbrMaxY(po.Geometry))
ORDER BY 1
);
bzw. (ab 3.x)...
CREATE TABLE orte_name AS SELECT pt.PKUID, pt.NAME, pt.Geometry, po.Name AS GEMEINDE FROM orte AS pt, gemeinden AS po WHERE ST_Within(pt.Geometry, po.Geometry) AND pt.ROWID IN ( SELECT ROWID FROM SpatialIndex WHERE f_table_name = 'Orte' AND search_frame = po.Geometry ORDER BY 1 );
Drei Arten von Spatial Index-Syntax
The R*Tree represents an efficient way to spatial filtering on the basis of MBR (aka BBOX) quick comparisons; for any precise spatial evaluation you are expected to use "true" spatial functions, such as ST_Contains(), ST_Within(), ST_Disjoint(), ST_Intersects(), etc..
One can access the R*Tree following *three* alternative approaches: e.g.
1) Oldest style (valid for all SpatiaLite versions)
SELECT Name FROM GeoNames
WHERE ROWID IN (
SELECT pkid FROM idx_GeoNames_Geometry
WHERE xmin <= 11.9 AND xmax >= 11.8
AND ymin <= 43.5 AND ymin >= 43.4
);
2) Geometry Call-Backs interface (valid vor version 2.6; deprecated in 3.x)
SELECT Name FROM GeoNames
WHERE ROWID IN (
SELECT pkid FROM idx_GeoNames_Geometry
WHERE pkid MATCH
RTreeIntersects(11.8, 43.4, 11.9, 43.5)
);
3) VirtualSpatialIndex interface (valid in 3.0.0 ?)
SELECT Name FROM GeoNames
WHERE ROWID IN (
SELECT ROWID FROM SpatialIndex
WHERE f_table_name = 'GeoNames' AND
search_frame = BuildMbr(11.8, 43.4, 11.9, 43.5)
);
There is no real difference between all them. It's mainly syntactic sugar; performances is the same, because the underlaying R*Tree implementation always is one and the same. The ugly details: What's really needed is the RTreeIntersects() callback function. But we already had MbrsWithin() and MbrsContains(): so applying the same approach for geometry callbacks functions accessing the R*Tree looked apparently good. Unfortunately this is not at all applicable to R*Tree callbacks: the internal logic implemented by SQLite is strictly bounded to "intersects". Any attempt to implement "within" or "contains" logic simply causes the whole callbacks chain to fail. So, *never* use RTreeContains and/or RTreeWithin; always use RTreeIntersects instead. Definitive solution: SpatiaLite v.3.0.0 "stable" will *DEPRECATE* both RTreeWithin and RTreeContains. They'll simply become alias-names for RTreeIntersects.