dramaticlly commented on code in PR #7499:
URL: https://github.com/apache/iceberg/pull/7499#discussion_r1187738033
##########
docs/spark-writes.md:
##########
@@ -339,74 +331,60 @@ USING iceberg
PARTITIONED BY (days(ts), category)
```
-To write data to the sample table, your data needs to be sorted by `days(ts),
category`.
-
-If you're inserting data with SQL statement, you can use `ORDER BY` to achieve
it, like below:
+To write data to the sample table, your data needs to be sorted by `days(ts),
category` but this is taken care
+of automatically by the default `hash` distribution. Previously this would
have required manually sorting, but this
+is no longer the case.
```sql
INSERT INTO prod.db.sample
SELECT id, data, category, ts FROM another_table
-ORDER BY ts, category
-```
-
-If you're inserting data with DataFrame, you can use either `orderBy`/`sort`
to trigger global sort, or `sortWithinPartitions`
-to trigger local sort. Local sort for example:
-
-```scala
-data.sortWithinPartitions("ts", "category")
- .writeTo("prod.db.sample")
- .append()
```
-You can simply add the original column to the sort condition for the most
partition transformations, except `bucket`.
-
-For `bucket` partition transformation, you need to register the Iceberg
transform function in Spark to specify it during sort.
-
-Let's go through another sample table having bucket partition:
-
-```sql
-CREATE TABLE prod.db.sample (
- id bigint,
- data string,
- category string,
- ts timestamp)
-USING iceberg
-PARTITIONED BY (bucket(16, id))
-```
-
-You need to register the function to deal with bucket, like below:
-
-```scala
-import org.apache.iceberg.spark.IcebergSpark
-import org.apache.spark.sql.types.DataTypes
-
-IcebergSpark.registerBucketUDF(spark, "iceberg_bucket16", DataTypes.LongType,
16)
-```
-
-{{< hint info >}}
-Explicit registration of the function is necessary because Spark doesn't allow
Iceberg to provide functions.
-[SPARK-27658](https://issues.apache.org/jira/browse/SPARK-27658) is filed to
enable Iceberg to provide functions
-which can be used in query.
-{{< /hint >}}
-
-Here we just registered the bucket function as `iceberg_bucket16`, which can
be used in sort clause.
-
-If you're inserting data with SQL statement, you can use the function like
below:
-
-```sql
-INSERT INTO prod.db.sample
-SELECT id, data, category, ts FROM another_table
-ORDER BY iceberg_bucket16(id)
-```
-
-If you're inserting data with DataFrame, you can use the function like below:
-
-```scala
-data.sortWithinPartitions(expr("iceberg_bucket16(id)"))
- .writeTo("prod.db.sample")
- .append()
-```
+There are 3 options for `write.distribution-mode`
+
+* `none` - This is the previous default for Iceberg.
+<p>This mode does not request any shuffles or sort to be performed
automatically by Spark. Because no work is done
+automatically by Spark, the data must be *manually* locally or globally sorted
by partition value. To reduce the number
+of files produced during writing, using a global sort is recommended.
+<p>A local sort can be avoided by using the Spark [write
fanout](#write-properties) property but this will cause all
+file handles to remain open until each write task has completed.
+* `hash` - This mode is the new default and requests that Spark uses a
hash-based exchange to shuffle the incoming
+write data before writing. Practically, this means that each row is hashed
based on the row's partition value and then placed
+in a corresponding Spark task based upon that value. Further division and
coalescing of tasks may take place because of
+the [Spark's Adaptive Query planning](#controlling-file-sizes).
+* `range` - This mode requests that Spark perform a range based exchanged to
shuffle the data before writing. This is
+a two stage procedure which is more expensive than the `hash` mode. The first
stage samples the data to be written based
+on the partition and sort columns. The second stage uses the range information
to shuffle the input data into Spark
+tasks. Each task gets an exclusive range of the input data which clusters the
data by partition and also globally sorts.
+While this is more expensive than the hash distribution, the global ordering
can be beneficial for read performance if
+sorted columns are used during queries. This mode is used by default if a
table is created with a
+sort-order. Further division and coalescing of tasks may take place because of
+[Spark's Adaptive Query planning](#controlling-file-sizes).
Review Comment:
actually I just realized your comment above
https://github.com/apache/iceberg/pull/7499#issuecomment-1535045394, looks like
doc render can do much better than just markdown, so I guess those are not
really needed
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