#[non_exhaustive]pub struct RuleBasedPropertiesBuilder { /* private fields */ }
Expand description
A builder for RuleBasedProperties
.
Implementations§
Source§impl RuleBasedPropertiesBuilder
impl RuleBasedPropertiesBuilder
Sourcepub fn rules(self, input: Rule) -> Self
pub fn rules(self, input: Rule) -> Self
Appends an item to rules
.
To override the contents of this collection use set_rules
.
A list of Rule
objects, each of which have fields RuleName
and MatchingKeys
.
Sourcepub fn set_rules(self, input: Option<Vec<Rule>>) -> Self
pub fn set_rules(self, input: Option<Vec<Rule>>) -> Self
A list of Rule
objects, each of which have fields RuleName
and MatchingKeys
.
Sourcepub fn get_rules(&self) -> &Option<Vec<Rule>>
pub fn get_rules(&self) -> &Option<Vec<Rule>>
A list of Rule
objects, each of which have fields RuleName
and MatchingKeys
.
Sourcepub fn attribute_matching_model(self, input: AttributeMatchingModel) -> Self
pub fn attribute_matching_model(self, input: AttributeMatchingModel) -> Self
The comparison type. You can either choose ONE_TO_ONE
or MANY_TO_MANY
as the attributeMatchingModel
.
If you choose MANY_TO_MANY
, the system can match attributes across the sub-types of an attribute type. For example, if the value of the Email
field of Profile A and the value of BusinessEmail
field of Profile B matches, the two profiles are matched on the Email
attribute type.
If you choose ONE_TO_ONE
, the system can only match attributes if the sub-types are an exact match. For example, for the Email
attribute type, the system will only consider it a match if the value of the Email
field of Profile A matches the value of the Email
field of Profile B.
Sourcepub fn set_attribute_matching_model(
self,
input: Option<AttributeMatchingModel>,
) -> Self
pub fn set_attribute_matching_model( self, input: Option<AttributeMatchingModel>, ) -> Self
The comparison type. You can either choose ONE_TO_ONE
or MANY_TO_MANY
as the attributeMatchingModel
.
If you choose MANY_TO_MANY
, the system can match attributes across the sub-types of an attribute type. For example, if the value of the Email
field of Profile A and the value of BusinessEmail
field of Profile B matches, the two profiles are matched on the Email
attribute type.
If you choose ONE_TO_ONE
, the system can only match attributes if the sub-types are an exact match. For example, for the Email
attribute type, the system will only consider it a match if the value of the Email
field of Profile A matches the value of the Email
field of Profile B.
Sourcepub fn get_attribute_matching_model(&self) -> &Option<AttributeMatchingModel>
pub fn get_attribute_matching_model(&self) -> &Option<AttributeMatchingModel>
The comparison type. You can either choose ONE_TO_ONE
or MANY_TO_MANY
as the attributeMatchingModel
.
If you choose MANY_TO_MANY
, the system can match attributes across the sub-types of an attribute type. For example, if the value of the Email
field of Profile A and the value of BusinessEmail
field of Profile B matches, the two profiles are matched on the Email
attribute type.
If you choose ONE_TO_ONE
, the system can only match attributes if the sub-types are an exact match. For example, for the Email
attribute type, the system will only consider it a match if the value of the Email
field of Profile A matches the value of the Email
field of Profile B.
Sourcepub fn match_purpose(self, input: MatchPurpose) -> Self
pub fn match_purpose(self, input: MatchPurpose) -> Self
An indicator of whether to generate IDs and index the data or not.
If you choose IDENTIFIER_GENERATION
, the process generates IDs and indexes the data.
If you choose INDEXING
, the process indexes the data without generating IDs.
Sourcepub fn set_match_purpose(self, input: Option<MatchPurpose>) -> Self
pub fn set_match_purpose(self, input: Option<MatchPurpose>) -> Self
An indicator of whether to generate IDs and index the data or not.
If you choose IDENTIFIER_GENERATION
, the process generates IDs and indexes the data.
If you choose INDEXING
, the process indexes the data without generating IDs.
Sourcepub fn get_match_purpose(&self) -> &Option<MatchPurpose>
pub fn get_match_purpose(&self) -> &Option<MatchPurpose>
An indicator of whether to generate IDs and index the data or not.
If you choose IDENTIFIER_GENERATION
, the process generates IDs and indexes the data.
If you choose INDEXING
, the process indexes the data without generating IDs.
Sourcepub fn build(self) -> Result<RuleBasedProperties, BuildError>
pub fn build(self) -> Result<RuleBasedProperties, BuildError>
Consumes the builder and constructs a RuleBasedProperties
.
This method will fail if any of the following fields are not set:
Trait Implementations§
Source§impl Clone for RuleBasedPropertiesBuilder
impl Clone for RuleBasedPropertiesBuilder
Source§fn clone(&self) -> RuleBasedPropertiesBuilder
fn clone(&self) -> RuleBasedPropertiesBuilder
1.0.0 · Source§const fn clone_from(&mut self, source: &Self)
const fn clone_from(&mut self, source: &Self)
source
. Read moreSource§impl Debug for RuleBasedPropertiesBuilder
impl Debug for RuleBasedPropertiesBuilder
Source§impl Default for RuleBasedPropertiesBuilder
impl Default for RuleBasedPropertiesBuilder
Source§fn default() -> RuleBasedPropertiesBuilder
fn default() -> RuleBasedPropertiesBuilder
Source§impl PartialEq for RuleBasedPropertiesBuilder
impl PartialEq for RuleBasedPropertiesBuilder
Source§fn eq(&self, other: &RuleBasedPropertiesBuilder) -> bool
fn eq(&self, other: &RuleBasedPropertiesBuilder) -> bool
self
and other
values to be equal, and is used by ==
.impl StructuralPartialEq for RuleBasedPropertiesBuilder
Auto Trait Implementations§
impl Freeze for RuleBasedPropertiesBuilder
impl RefUnwindSafe for RuleBasedPropertiesBuilder
impl Send for RuleBasedPropertiesBuilder
impl Sync for RuleBasedPropertiesBuilder
impl Unpin for RuleBasedPropertiesBuilder
impl UnwindSafe for RuleBasedPropertiesBuilder
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