PostgreSQL：限制越低，查询速度越慢_Sql_Postgresql_Query Optimization_Sql Execution Plan

PostgreSQL：限制越低，查询速度越慢

sql postgresql

PostgreSQL：限制越低，查询速度越慢,sql,postgresql,query-optimization,sql-execution-plan,Sql,Postgresql,Query Optimization,Sql Execution Plan,我有以下疑问 SELECT translation.id FROM "TRANSLATION" translation INNER JOIN "UNIT" unit ON translation.fk_id_unit = unit.id INNER JOIN "DOCUMENT" document ON unit.fk_id_document = document.id WHERE document.fk_id_job = 3665 ORDER BY transl

我有以下疑问

SELECT translation.id
FROM "TRANSLATION" translation
   INNER JOIN "UNIT" unit
     ON translation.fk_id_unit = unit.id
   INNER JOIN "DOCUMENT" document
     ON unit.fk_id_document = document.id
WHERE document.fk_id_job = 3665
ORDER BY translation.id asc
LIMIT 50

它运行了可怕的110秒
表格大小：

+----------------+-------------+ | Table | Records | +----------------+-------------+ | TRANSLATION | 6,906,679 | | UNIT | 6,906,679 | | DOCUMENT | 42,321 | +----------------+-------------+
但是，当我将
LIMIT
参数从50更改为1000时，查询将在2秒内完成
下面是慢的查询计划

Limit (cost=0.00..146071.52 rows=50 width=8) (actual time=111916.180..111917.626 rows=50 loops=1) -> Nested Loop (cost=0.00..50748166.14 rows=17371 width=8) (actual time=111916.179..111917.624 rows=50 loops=1) Join Filter: (unit.fk_id_document = document.id) -> Nested Loop (cost=0.00..39720545.91 rows=5655119 width=16) (actual time=0.051..15292.943 rows=5624514 loops=1) -> Index Scan using "TRANSLATION_pkey" on "TRANSLATION" translation (cost=0.00..7052806.78 rows=5655119 width=16) (actual time=0.039..1887.757 rows=5624514 loops=1) -> Index Scan using "UNIT_pkey" on "UNIT" unit (cost=0.00..5.76 rows=1 width=16) (actual time=0.002..0.002 rows=1 loops=5624514) Index Cond: (unit.id = translation.fk_id_translation_unit) -> Materialize (cost=0.00..138.51 rows=130 width=8) (actual time=0.000..0.006 rows=119 loops=5624514) -> Index Scan using "DOCUMENT_idx_job" on "DOCUMENT" document (cost=0.00..137.86 rows=130 width=8) (actual time=0.025..0.184 rows=119 loops=1) Index Cond: (fk_id_job = 3665)
快的那个呢

Limit (cost=523198.17..523200.67 rows=1000 width=8) (actual time=2274.830..2274.988 rows=1000 loops=1) -> Sort (cost=523198.17..523241.60 rows=17371 width=8) (actual time=2274.829..2274.895 rows=1000 loops=1) Sort Key: translation.id Sort Method: top-N heapsort Memory: 95kB -> Nested Loop (cost=139.48..522245.74 rows=17371 width=8) (actual time=0.095..2252.710 rows=97915 loops=1) -> Hash Join (cost=139.48..420861.93 rows=17551 width=8) (actual time=0.079..2005.238 rows=97915 loops=1) Hash Cond: (unit.fk_id_document = document.id) -> Seq Scan on "UNIT" unit (cost=0.00..399120.41 rows=5713741 width=16) (actual time=0.008..1200.547 rows=6908070 loops=1) -> Hash (cost=137.86..137.86 rows=130 width=8) (actual time=0.065..0.065 rows=119 loops=1) Buckets: 1024 Batches: 1 Memory Usage: 5kB -> Index Scan using "DOCUMENT_idx_job" on "DOCUMENT" document (cost=0.00..137.86 rows=130 width=8) (actual time=0.009..0.041 rows=119 loops=1) Index Cond: (fk_id_job = 3665) -> Index Scan using "TRANSLATION_idx_unit" on "TRANSLATION" translation (cost=0.00..5.76 rows=1 width=16) (actual time=0.002..0.002 rows=1 loops=97915) Index Cond: (translation.fk_id_translation_unit = unit.id)
显然，执行计划非常不同，第二个执行计划的查询速度要快50倍
我在查询涉及的所有字段上都有索引，在运行查询之前，我在所有表上运行了
ANALYZE
有人能看出第一个查询有什么问题吗
更新：表格定义

CREATE TABLE "public"."TRANSLATION" ( "id" BIGINT NOT NULL, "fk_id_translation_unit" BIGINT NOT NULL, "translation" TEXT NOT NULL, "fk_id_language" INTEGER NOT NULL, "relevance" INTEGER, CONSTRAINT "TRANSLATION_pkey" PRIMARY KEY("id"), CONSTRAINT "TRANSLATION_fk" FOREIGN KEY ("fk_id_translation_unit") REFERENCES "public"."UNIT"("id") ON DELETE CASCADE ON UPDATE NO ACTION DEFERRABLE INITIALLY DEFERRED, CONSTRAINT "TRANSLATION_fk1" FOREIGN KEY ("fk_id_language") REFERENCES "public"."LANGUAGE"("id") ON DELETE NO ACTION ON UPDATE NO ACTION NOT DEFERRABLE ) WITHOUT OIDS; CREATE INDEX "TRANSLATION_idx_unit" ON "public"."TRANSLATION" USING btree ("fk_id_translation_unit"); CREATE INDEX "TRANSLATION_language_idx" ON "public"."TRANSLATION" USING hash ("translation");

shared_buffers = 2048MB effective_cache_size = 4096MB work_mem = 32MB Total memory: 32GB CPU: Intel Xeon X3470 @ 2.93 GHz, 8MB cache

更新：数据库参数

CREATE TABLE "public"."TRANSLATION" ( "id" BIGINT NOT NULL, "fk_id_translation_unit" BIGINT NOT NULL, "translation" TEXT NOT NULL, "fk_id_language" INTEGER NOT NULL, "relevance" INTEGER, CONSTRAINT "TRANSLATION_pkey" PRIMARY KEY("id"), CONSTRAINT "TRANSLATION_fk" FOREIGN KEY ("fk_id_translation_unit") REFERENCES "public"."UNIT"("id") ON DELETE CASCADE ON UPDATE NO ACTION DEFERRABLE INITIALLY DEFERRED, CONSTRAINT "TRANSLATION_fk1" FOREIGN KEY ("fk_id_language") REFERENCES "public"."LANGUAGE"("id") ON DELETE NO ACTION ON UPDATE NO ACTION NOT DEFERRABLE ) WITHOUT OIDS; CREATE INDEX "TRANSLATION_idx_unit" ON "public"."TRANSLATION" USING btree ("fk_id_translation_unit"); CREATE INDEX "TRANSLATION_language_idx" ON "public"."TRANSLATION" USING hash ("translation");

shared_buffers = 2048MB effective_cache_size = 4096MB work_mem = 32MB Total memory: 32GB CPU: Intel Xeon X3470 @ 2.93 GHz, 8MB cache

下面是分析官方文档的一个有趣部分
对于大型表，ANALYZE对表内容进行随机抽样，而不是检查每一行。 [...] 可以通过调整默认的_statistics _target配置变量来控制分析范围，或者通过使用ALTER TABLE设置每列统计目标来逐列控制分析范围。。。更改列。。。设置统计数据
显然，这是改进糟糕的查询计划的常用方法。分析会稍微慢一点，但查询计划会更好

在第一个查询中，优化器获取通过主键扫描绕过排序的序列。问题是满足document.fk_id条件的结果太少。因此，索引扫描和nl join应该远远超出结果范围。
您可以发布表定义吗？您的安装是否进行了调整？共享缓冲区、有效缓存大小、工作内存和系统规格的设置是什么？@eevar我们调整了一些参数，但没有花太多时间调整系统。我用基本参数更新了我的帖子。这可能有助于将随机页面成本降低到1…2（可以通过会话内部的SET语句来实现。（也可能降低共享缓冲区并增加有效缓存大小；但这是我个人的不满；-）可能会增加统计数据并运行真空分析？脱离主题，但我很好奇为什么“共享缓冲区”相对于系统内存（32GB）如此低（2GB）？我的理解是，对于专用数据库服务器，这应该设置为系统内存的50%。我很好奇。