aws_sdk_entityresolution::types::builders

Struct SchemaInputAttributeBuilder

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

A builder for SchemaInputAttribute.

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impl SchemaInputAttributeBuilder

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pub fn field_name(self, input: impl Into<String>) -> Self

A string containing the field name.

This field is required.
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pub fn set_field_name(self, input: Option<String>) -> Self

A string containing the field name.

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pub fn get_field_name(&self) -> &Option<String>

A string containing the field name.

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pub fn type(self, input: SchemaAttributeType) -> Self

The type of the attribute, selected from a list of values.

LiveRamp supports: NAME | NAME_FIRST | NAME_MIDDLE | NAME_LAST | ADDRESS | ADDRESS_STREET1 | ADDRESS_STREET2 | ADDRESS_STREET3 | ADDRESS_CITY | ADDRESS_STATE | ADDRESS_COUNTRY | ADDRESS_POSTALCODE | PHONE | PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID | PROVIDER_ID

TransUnion supports: NAME | NAME_FIRST | NAME_LAST | ADDRESS | ADDRESS_CITY | ADDRESS_STATE | ADDRESS_COUNTRY | ADDRESS_POSTALCODE | PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID | IPV4 | IPV6 | MAID

Unified ID 2.0 supports: PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID

Normalization is only supported for NAME, ADDRESS, PHONE, and EMAIL_ADDRESS.

If you want to normalize NAME_FIRST, NAME_MIDDLE, and NAME_LAST, you must group them by assigning them to the NAME groupName.

If you want to normalize ADDRESS_STREET1, ADDRESS_STREET2, ADDRESS_STREET3, ADDRESS_CITY, ADDRESS_STATE, ADDRESS_COUNTRY, and ADDRESS_POSTALCODE, you must group them by assigning them to the ADDRESS groupName.

If you want to normalize PHONE_NUMBER and PHONE_COUNTRYCODE, you must group them by assigning them to the PHONE groupName.

 This field is required.
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pub fn set_type(self, input: Option<SchemaAttributeType>) -> Self

The type of the attribute, selected from a list of values.

LiveRamp supports: NAME | NAME_FIRST | NAME_MIDDLE | NAME_LAST | ADDRESS | ADDRESS_STREET1 | ADDRESS_STREET2 | ADDRESS_STREET3 | ADDRESS_CITY | ADDRESS_STATE | ADDRESS_COUNTRY | ADDRESS_POSTALCODE | PHONE | PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID | PROVIDER_ID

TransUnion supports: NAME | NAME_FIRST | NAME_LAST | ADDRESS | ADDRESS_CITY | ADDRESS_STATE | ADDRESS_COUNTRY | ADDRESS_POSTALCODE | PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID | IPV4 | IPV6 | MAID

Unified ID 2.0 supports: PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID

Normalization is only supported for NAME, ADDRESS, PHONE, and EMAIL_ADDRESS.

If you want to normalize NAME_FIRST, NAME_MIDDLE, and NAME_LAST, you must group them by assigning them to the NAME groupName.

If you want to normalize ADDRESS_STREET1, ADDRESS_STREET2, ADDRESS_STREET3, ADDRESS_CITY, ADDRESS_STATE, ADDRESS_COUNTRY, and ADDRESS_POSTALCODE, you must group them by assigning them to the ADDRESS groupName.

If you want to normalize PHONE_NUMBER and PHONE_COUNTRYCODE, you must group them by assigning them to the PHONE groupName.

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pub fn get_type(&self) -> &Option<SchemaAttributeType>

The type of the attribute, selected from a list of values.

LiveRamp supports: NAME | NAME_FIRST | NAME_MIDDLE | NAME_LAST | ADDRESS | ADDRESS_STREET1 | ADDRESS_STREET2 | ADDRESS_STREET3 | ADDRESS_CITY | ADDRESS_STATE | ADDRESS_COUNTRY | ADDRESS_POSTALCODE | PHONE | PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID | PROVIDER_ID

TransUnion supports: NAME | NAME_FIRST | NAME_LAST | ADDRESS | ADDRESS_CITY | ADDRESS_STATE | ADDRESS_COUNTRY | ADDRESS_POSTALCODE | PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID | IPV4 | IPV6 | MAID

Unified ID 2.0 supports: PHONE_NUMBER | EMAIL_ADDRESS | UNIQUE_ID

Normalization is only supported for NAME, ADDRESS, PHONE, and EMAIL_ADDRESS.

If you want to normalize NAME_FIRST, NAME_MIDDLE, and NAME_LAST, you must group them by assigning them to the NAME groupName.

If you want to normalize ADDRESS_STREET1, ADDRESS_STREET2, ADDRESS_STREET3, ADDRESS_CITY, ADDRESS_STATE, ADDRESS_COUNTRY, and ADDRESS_POSTALCODE, you must group them by assigning them to the ADDRESS groupName.

If you want to normalize PHONE_NUMBER and PHONE_COUNTRYCODE, you must group them by assigning them to the PHONE groupName.

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pub fn group_name(self, input: impl Into<String>) -> Self

A string that instructs Entity Resolution to combine several columns into a unified column with the identical attribute type.

For example, when working with columns such as NAME_FIRST, NAME_MIDDLE, and NAME_LAST, assigning them a common groupName will prompt Entity Resolution to concatenate them into a single value.

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pub fn set_group_name(self, input: Option<String>) -> Self

A string that instructs Entity Resolution to combine several columns into a unified column with the identical attribute type.

For example, when working with columns such as NAME_FIRST, NAME_MIDDLE, and NAME_LAST, assigning them a common groupName will prompt Entity Resolution to concatenate them into a single value.

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pub fn get_group_name(&self) -> &Option<String>

A string that instructs Entity Resolution to combine several columns into a unified column with the identical attribute type.

For example, when working with columns such as NAME_FIRST, NAME_MIDDLE, and NAME_LAST, assigning them a common groupName will prompt Entity Resolution to concatenate them into a single value.

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pub fn match_key(self, input: impl Into<String>) -> Self

A key that allows grouping of multiple input attributes into a unified matching group.

For example, consider a scenario where the source table contains various addresses, such as business_address and shipping_address. By assigning a matchKey called address to both attributes, Entity Resolution will match records across these fields to create a consolidated matching group.

If no matchKey is specified for a column, it won't be utilized for matching purposes but will still be included in the output table.

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pub fn set_match_key(self, input: Option<String>) -> Self

A key that allows grouping of multiple input attributes into a unified matching group.

For example, consider a scenario where the source table contains various addresses, such as business_address and shipping_address. By assigning a matchKey called address to both attributes, Entity Resolution will match records across these fields to create a consolidated matching group.

If no matchKey is specified for a column, it won't be utilized for matching purposes but will still be included in the output table.

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pub fn get_match_key(&self) -> &Option<String>

A key that allows grouping of multiple input attributes into a unified matching group.

For example, consider a scenario where the source table contains various addresses, such as business_address and shipping_address. By assigning a matchKey called address to both attributes, Entity Resolution will match records across these fields to create a consolidated matching group.

If no matchKey is specified for a column, it won't be utilized for matching purposes but will still be included in the output table.

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pub fn sub_type(self, input: impl Into<String>) -> Self

The subtype of the attribute, selected from a list of values.

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pub fn set_sub_type(self, input: Option<String>) -> Self

The subtype of the attribute, selected from a list of values.

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pub fn get_sub_type(&self) -> &Option<String>

The subtype of the attribute, selected from a list of values.

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pub fn hashed(self, input: bool) -> Self

Indicates if the column values are hashed in the schema input.

If the value is set to TRUE, the column values are hashed.

If the value is set to FALSE, the column values are cleartext.

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pub fn set_hashed(self, input: Option<bool>) -> Self

Indicates if the column values are hashed in the schema input.

If the value is set to TRUE, the column values are hashed.

If the value is set to FALSE, the column values are cleartext.

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pub fn get_hashed(&self) -> &Option<bool>

Indicates if the column values are hashed in the schema input.

If the value is set to TRUE, the column values are hashed.

If the value is set to FALSE, the column values are cleartext.

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pub fn build(self) -> Result<SchemaInputAttribute, BuildError>

Consumes the builder and constructs a SchemaInputAttribute. This method will fail if any of the following fields are not set:

Trait Implementations§

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impl Clone for SchemaInputAttributeBuilder

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fn clone(&self) -> SchemaInputAttributeBuilder

Returns a duplicate of the value. Read more
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const fn clone_from(&mut self, source: &Self)

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

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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 SchemaInputAttributeBuilder

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fn default() -> SchemaInputAttributeBuilder

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

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

Tests for self and other values to be equal, and is used by ==.
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const 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 SchemaInputAttributeBuilder

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