AutomatedReasoningPolicyGeneratedTestCaseBuilder

aws_sdk_bedrock::types::builders

Struct AutomatedReasoningPolicyGeneratedTestCaseBuilder 

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

A builder for AutomatedReasoningPolicyGeneratedTestCase.

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impl AutomatedReasoningPolicyGeneratedTestCaseBuilder

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

The input query or prompt that generated the content. This provides context for the validation.

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

The input query or prompt that generated the content. This provides context for the validation.

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

The input query or prompt that generated the content. This provides context for the validation.

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

The output content that's validated by the Automated Reasoning policy. This represents the foundation model response that will be checked for accuracy.

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

The output content that's validated by the Automated Reasoning policy. This represents the foundation model response that will be checked for accuracy.

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

The output content that's validated by the Automated Reasoning policy. This represents the foundation model response that will be checked for accuracy.

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pub fn expected_aggregated_findings_result( self, input: AutomatedReasoningCheckResult, ) -> Self

The expected results of the generated test case. Possible values include:

  • VALID - The claims are true. The claims are implied by the premises and the Automated Reasoning policy. Given the Automated Reasoning policy and premises, it is not possible for these claims to be false. In other words, there are no alternative answers that are true that contradict the claims.

  • INVALID - The claims are false. The claims are not implied by the premises and Automated Reasoning policy. Furthermore, there exists different claims that are consistent with the premises and Automated Reasoning policy.

  • SATISFIABLE - The claims can be true or false. It depends on what assumptions are made for the claim to be implied from the premises and Automated Reasoning policy rules. In this situation, different assumptions can make input claims false and alternative claims true.

  • IMPOSSIBLE - Automated Reasoning can’t make a statement about the claims. This can happen if the premises are logically incorrect, or if there is a conflict within the Automated Reasoning policy itself.

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

The expected results of the generated test case. Possible values include:

  • VALID - The claims are true. The claims are implied by the premises and the Automated Reasoning policy. Given the Automated Reasoning policy and premises, it is not possible for these claims to be false. In other words, there are no alternative answers that are true that contradict the claims.

  • INVALID - The claims are false. The claims are not implied by the premises and Automated Reasoning policy. Furthermore, there exists different claims that are consistent with the premises and Automated Reasoning policy.

  • SATISFIABLE - The claims can be true or false. It depends on what assumptions are made for the claim to be implied from the premises and Automated Reasoning policy rules. In this situation, different assumptions can make input claims false and alternative claims true.

  • IMPOSSIBLE - Automated Reasoning can’t make a statement about the claims. This can happen if the premises are logically incorrect, or if there is a conflict within the Automated Reasoning policy itself.

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pub fn get_expected_aggregated_findings_result( &self, ) -> &Option<AutomatedReasoningCheckResult>

The expected results of the generated test case. Possible values include:

  • VALID - The claims are true. The claims are implied by the premises and the Automated Reasoning policy. Given the Automated Reasoning policy and premises, it is not possible for these claims to be false. In other words, there are no alternative answers that are true that contradict the claims.

  • INVALID - The claims are false. The claims are not implied by the premises and Automated Reasoning policy. Furthermore, there exists different claims that are consistent with the premises and Automated Reasoning policy.

  • SATISFIABLE - The claims can be true or false. It depends on what assumptions are made for the claim to be implied from the premises and Automated Reasoning policy rules. In this situation, different assumptions can make input claims false and alternative claims true.

  • IMPOSSIBLE - Automated Reasoning can’t make a statement about the claims. This can happen if the premises are logically incorrect, or if there is a conflict within the Automated Reasoning policy itself.

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

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

Trait Implementations§

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impl Clone for AutomatedReasoningPolicyGeneratedTestCaseBuilder

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fn clone(&self) -> AutomatedReasoningPolicyGeneratedTestCaseBuilder

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

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

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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 AutomatedReasoningPolicyGeneratedTestCaseBuilder

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fn default() -> AutomatedReasoningPolicyGeneratedTestCaseBuilder

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

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

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

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