IcebergCompactionConfigurationBuilder

aws_sdk_glue::types::builders

Struct IcebergCompactionConfigurationBuilder 

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#[non_exhaustive]
pub struct IcebergCompactionConfigurationBuilder { /* private fields */ }
Expand description

A builder for IcebergCompactionConfiguration.

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impl IcebergCompactionConfigurationBuilder

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pub fn strategy(self, input: CompactionStrategy) -> Self

The strategy to use for compaction. Valid values are:

  • binpack: Combines small files into larger files, typically targeting sizes over 100MB, while applying any pending deletes. This is the recommended compaction strategy for most use cases.

  • sort: Organizes data based on specified columns which are sorted hierarchically during compaction, improving query performance for filtered operations. This strategy is recommended when your queries frequently filter on specific columns. To use this strategy, you must first define a sort order in your Iceberg table properties using the sort_order table property.

  • z-order: Optimizes data organization by blending multiple attributes into a single scalar value that can be used for sorting, allowing efficient querying across multiple dimensions. This strategy is recommended when you need to query data across multiple dimensions simultaneously. To use this strategy, you must first define a sort order in your Iceberg table properties using the sort_order table property.

If an input is not provided, the default value 'binpack' will be used.

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pub fn set_strategy(self, input: Option<CompactionStrategy>) -> Self

The strategy to use for compaction. Valid values are:

  • binpack: Combines small files into larger files, typically targeting sizes over 100MB, while applying any pending deletes. This is the recommended compaction strategy for most use cases.

  • sort: Organizes data based on specified columns which are sorted hierarchically during compaction, improving query performance for filtered operations. This strategy is recommended when your queries frequently filter on specific columns. To use this strategy, you must first define a sort order in your Iceberg table properties using the sort_order table property.

  • z-order: Optimizes data organization by blending multiple attributes into a single scalar value that can be used for sorting, allowing efficient querying across multiple dimensions. This strategy is recommended when you need to query data across multiple dimensions simultaneously. To use this strategy, you must first define a sort order in your Iceberg table properties using the sort_order table property.

If an input is not provided, the default value 'binpack' will be used.

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pub fn get_strategy(&self) -> &Option<CompactionStrategy>

The strategy to use for compaction. Valid values are:

  • binpack: Combines small files into larger files, typically targeting sizes over 100MB, while applying any pending deletes. This is the recommended compaction strategy for most use cases.

  • sort: Organizes data based on specified columns which are sorted hierarchically during compaction, improving query performance for filtered operations. This strategy is recommended when your queries frequently filter on specific columns. To use this strategy, you must first define a sort order in your Iceberg table properties using the sort_order table property.

  • z-order: Optimizes data organization by blending multiple attributes into a single scalar value that can be used for sorting, allowing efficient querying across multiple dimensions. This strategy is recommended when you need to query data across multiple dimensions simultaneously. To use this strategy, you must first define a sort order in your Iceberg table properties using the sort_order table property.

If an input is not provided, the default value 'binpack' will be used.

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pub fn min_input_files(self, input: i32) -> Self

The minimum number of data files that must be present in a partition before compaction will actually compact files. This parameter helps control when compaction is triggered, preventing unnecessary compaction operations on partitions with few files. If an input is not provided, the default value 100 will be used.

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pub fn set_min_input_files(self, input: Option<i32>) -> Self

The minimum number of data files that must be present in a partition before compaction will actually compact files. This parameter helps control when compaction is triggered, preventing unnecessary compaction operations on partitions with few files. If an input is not provided, the default value 100 will be used.

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pub fn get_min_input_files(&self) -> &Option<i32>

The minimum number of data files that must be present in a partition before compaction will actually compact files. This parameter helps control when compaction is triggered, preventing unnecessary compaction operations on partitions with few files. If an input is not provided, the default value 100 will be used.

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pub fn delete_file_threshold(self, input: i32) -> Self

The minimum number of deletes that must be present in a data file to make it eligible for compaction. This parameter helps optimize compaction by focusing on files that contain a significant number of delete operations, which can improve query performance by removing deleted records. If an input is not provided, the default value 1 will be used.

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pub fn set_delete_file_threshold(self, input: Option<i32>) -> Self

The minimum number of deletes that must be present in a data file to make it eligible for compaction. This parameter helps optimize compaction by focusing on files that contain a significant number of delete operations, which can improve query performance by removing deleted records. If an input is not provided, the default value 1 will be used.

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pub fn get_delete_file_threshold(&self) -> &Option<i32>

The minimum number of deletes that must be present in a data file to make it eligible for compaction. This parameter helps optimize compaction by focusing on files that contain a significant number of delete operations, which can improve query performance by removing deleted records. If an input is not provided, the default value 1 will be used.

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pub fn build(self) -> IcebergCompactionConfiguration

Consumes the builder and constructs a IcebergCompactionConfiguration.

Trait Implementations§

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impl Clone for IcebergCompactionConfigurationBuilder

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fn clone(&self) -> IcebergCompactionConfigurationBuilder

Returns a duplicate of the value. Read more
1.0.0 · Source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for IcebergCompactionConfigurationBuilder

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl Default for IcebergCompactionConfigurationBuilder

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fn default() -> IcebergCompactionConfigurationBuilder

Returns the “default value” for a type. Read more
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impl PartialEq for IcebergCompactionConfigurationBuilder

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fn eq(&self, other: &IcebergCompactionConfigurationBuilder) -> bool

Tests for self and other values to be equal, and is used by ==.
1.0.0 · Source§

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl StructuralPartialEq for IcebergCompactionConfigurationBuilder

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