use super::*; from_examples!(DMN_3_0055); #[bench] fn _0001(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"false"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0002(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision001_a"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"true"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0003(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"false"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0004(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision002_a"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"true"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0005(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"false"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0006(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision004"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null(expected 1 parameters, actual number of parameters is 0)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0007(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision005"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null(expected 1 parameters, actual number of parameters is 2)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0008(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"false"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0009(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null(parameter 'number' not found)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0010(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision008"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null([core::odd] invalid argument type, expected number, actual type is Null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0011(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision009"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null([core::odd] invalid argument type, expected number, actual type is string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0012(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision010"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null([core::odd] invalid argument type, expected number, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0013(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision011"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null([core::odd] invalid argument type, expected number, actual type is days and time duration)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0014(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision012"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null([core::odd] invalid argument type, expected number, actual type is years and months duration)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0015(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision013"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null([core::odd] invalid argument type, expected number, actual type is date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0016(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision014"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null([core::odd] invalid argument type, expected number, actual type is time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); } #[bench] fn _0017(b: &mut Bencher) { let ctx = context(r#"{}"#); let invocable_name = "decision015"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &ctx, r#"null([core::odd] invalid argument type, expected number, actual type is date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &ctx)); }