use super::*; from_examples!(DMN_3_0100); static CTX: Lazy = Lazy::new(|| context(r#"{}"#)); #[bench] fn _0001(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"100"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0002(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-100"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0003(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_number_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"100"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0004(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_number_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"0"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0005(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0006(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P10D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0007(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_dtDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0008(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_dtDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0009(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_dtDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1DT2H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0010(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_dtDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"PT0S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0011(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_dtDuration_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P6DT1H30M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0012(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_dtDuration_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P2DT9H30M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0013(b: &mut Bencher) { let invocable_name = "multiply_lhs_dtDuration_by_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0014(b: &mut Bencher) { let invocable_name = "multiply_lhs_dtDuration_by_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P10D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0015(b: &mut Bencher) { let invocable_name = "multiply_lhs_dtDuration_by_rhs_number_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0016(b: &mut Bencher) { let invocable_name = "multiply_lhs_dtDuration_by_rhs_number_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0017(b: &mut Bencher) { let invocable_name = "multiply_lhs_dtDuration_by_rhs_number_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1DT2H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0018(b: &mut Bencher) { let invocable_name = "multiply_lhs_dtDuration_by_rhs_number_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"PT0S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0019(b: &mut Bencher) { let invocable_name = "multiply_lhs_dtDuration_by_rhs_number_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P6DT1H30M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0020(b: &mut Bencher) { let invocable_name = "multiply_lhs_dtDuration_by_rhs_number_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P2DT9H30M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0021(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0022(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P10Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0023(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0024(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0025(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P2Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0026(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P2Y2M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0027(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P0M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0028(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P3M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0029(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P3M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0030(b: &mut Bencher) { let invocable_name = "multiply_lhs_number_by_rhs_ymDuration_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P4Y9M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0031(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0032(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P10Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0033(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0034(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0035(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P2Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0036(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P2Y2M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0037(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P0M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0038(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P3M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0039(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P3M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0040(b: &mut Bencher) { let invocable_name = "multiply_lhs_ymDuration_by_rhs_number_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P4Y9M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0041(b: &mut Bencher) { let invocable_name = "divide_lhs_number_by_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0042(b: &mut Bencher) { let invocable_name = "divide_lhs_number_by_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] division by zero)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0043(b: &mut Bencher) { let invocable_name = "divide_lhs_ymDuration_by_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0044(b: &mut Bencher) { let invocable_name = "divide_lhs_ymDuration_by_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] division by zero)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0045(b: &mut Bencher) { let invocable_name = "divide_lhs_ymDuration_by_rhs_number_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P4Y4M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0046(b: &mut Bencher) { let invocable_name = "divide_lhs_ymDuration_by_rhs_number_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P4Y4M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0047(b: &mut Bencher) { let invocable_name = "divide_lhs_ymDuration_by_rhs_ymDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0048(b: &mut Bencher) { let invocable_name = "divide_lhs_ymDuration_by_rhs_ymDuration_002"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P10D / P0M)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0049(b: &mut Bencher) { let invocable_name = "divide_lhs_dtDuration_by_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0050(b: &mut Bencher) { let invocable_name = "divide_lhs_dtDuration_by_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] division by zero)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0051(b: &mut Bencher) { let invocable_name = "divide_lhs_dtDuration_by_rhs_number_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P4DT9H12M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0052(b: &mut Bencher) { let invocable_name = "divide_lhs_dtDuration_by_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0053(b: &mut Bencher) { let invocable_name = "divide_lhs_dtDuration_by_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] division by zero)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0054(b: &mut Bencher) { let invocable_name = "add_lhs_number_to_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"15"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0055(b: &mut Bencher) { let invocable_name = "add_lhs_number_to_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"5"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0056(b: &mut Bencher) { let invocable_name = "add_lhs_number_to_rhs_number_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-5"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0057(b: &mut Bencher) { let invocable_name = "add_lhs_number_to_rhs_number_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-15"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0058(b: &mut Bencher) { let invocable_name = "add_lhs_number_to_rhs_number_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"3.4685"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0059(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2022-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0060(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-02-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0061(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0062(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0063(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0064(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0065(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-02-01T10:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0066(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-01T10:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0067(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""2021-02-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0068(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-02-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0069(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_011"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2020-01-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0070(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_012"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0071(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_013"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-01-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0072(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_014"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-02-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0073(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_015"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2020-01-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0074(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_016"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0075(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_ymDuration_017"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-01-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0076(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2022-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0077(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-02-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0078(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0079(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0080(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0081(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0082(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-02-01T10:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0083(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-01T10:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0084(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""2021-02-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0085(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-02-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0086(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_011"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2020-01-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0087(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_012"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0088(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_013"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-01-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0089(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_014"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-02-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0090(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_015"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2020-01-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0091(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_016"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0092(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_dateAndTime_017"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-01-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0093(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-13T11:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0094(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-13T11:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0095(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0096(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T11:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0097(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-31T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0098(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T09:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0099(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0100(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0101(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02T00:00:01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0102(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T23:59:59"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0103(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_011"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T11:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0104(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_012"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T09:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0105(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_013"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""2021-01-13T11:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0106(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_014"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T11:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0107(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_015"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-02T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0108(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_016"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T09:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0109(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_017"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-31T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0110(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_018"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T11:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0111(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_019"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-02T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0112(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_020"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T09:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0113(b: &mut Bencher) { let invocable_name = "add_lhs_dateAndTime_to_rhs_dtDuration_021"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-31T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0114(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-13T11:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0115(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-13T11:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0116(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0117(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T11:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0118(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-31T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0119(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T09:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0120(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0121(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0122(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02T00:00:01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0123(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T23:59:59"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0124(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_011"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T11:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0125(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_012"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T09:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0126(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_013"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""2021-01-13T11:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0127(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_014"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T11:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0128(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_015"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-02T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0129(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_016"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T09:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0130(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_017"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-31T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0131(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_018"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T11:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0132(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_019"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-02T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0133(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_020"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T09:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0134(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dateAndTime_021"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-31T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0135(b: &mut Bencher) { let invocable_name = "add_lhs_date_to_rhs_ymDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2022-01-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0136(b: &mut Bencher) { let invocable_name = "add_lhs_date_to_rhs_ymDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-02-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0137(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_date_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2022-01-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0138(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_date_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-02-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0139(b: &mut Bencher) { let invocable_name = "add_lhs_date_to_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0140(b: &mut Bencher) { let invocable_name = "add_lhs_date_to_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0141(b: &mut Bencher) { let invocable_name = "add_lhs_date_to_rhs_dtDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-03"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0142(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_date_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0143(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_date_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0144(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_date_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-03"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0145(b: &mut Bencher) { let invocable_name = "add_lhs_time_to_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"11:15:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0146(b: &mut Bencher) { let invocable_name = "add_lhs_time_to_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"10:15:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0147(b: &mut Bencher) { let invocable_name = "add_lhs_time_to_rhs_dtDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"10:15:00+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0148(b: &mut Bencher) { let invocable_name = "add_lhs_time_to_rhs_dtDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""10:15:00@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0149(b: &mut Bencher) { let invocable_name = "add_lhs_time_to_rhs_dtDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""10:15:00@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0150(b: &mut Bencher) { let invocable_name = "add_lhs_time_to_rhs_dtDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""11:15:00@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0151(b: &mut Bencher) { let invocable_name = "add_lhs_time_to_rhs_dtDuration_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""09:15:00@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0152(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_time_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"11:15:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0153(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_time_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"10:15:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0154(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_time_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"10:15:00+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0155(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_time_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""10:15:00@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0156(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_time_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""10:15:00@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0157(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_time_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""11:15:00@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0158(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_time_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""09:15:00@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0159(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_ymDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y2M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0160(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_ymDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0161(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_ymDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P10M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0162(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_ymDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P1Y2M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0163(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_ymDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0164(b: &mut Bencher) { let invocable_name = "add_lhs_ymDuration_to_rhs_ymDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0165(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P3D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0166(b: &mut Bencher) { let invocable_name = "add_lhs_dtDuration_to_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P2D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0167(b: &mut Bencher) { let invocable_name = "add_lhs_string_to_rhs_string_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""foobar""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0168(b: &mut Bencher) { let invocable_name = "add_lhs_string_to_rhs_string_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""11""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0169(b: &mut Bencher) { let invocable_name = "subtract_lhs_number_minus_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"5"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0170(b: &mut Bencher) { let invocable_name = "subtract_lhs_number_minus_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"15"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0171(b: &mut Bencher) { let invocable_name = "subtract_lhs_number_minus_rhs_number_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-15"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0172(b: &mut Bencher) { let invocable_name = "subtract_lhs_number_minus_rhs_number_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-5"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0173(b: &mut Bencher) { let invocable_name = "subtract_lhs_number_minus_rhs_number_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"0.8889"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0174(b: &mut Bencher) { let invocable_name = "subtract_lhs_number_minus_rhs_number_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"1.3579"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0175(b: &mut Bencher) { let invocable_name = "subtract_lhs_number_minus_rhs_number_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-0.8889"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0176(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0177(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_002"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-02T10:10:10@Europe/Paris - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0178(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_003"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-02T10:10:10 - 2021-01-01T10:10:10@Europe/Paris)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0179(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_004"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-02T10:10:10+02:00 - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0180(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_005"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-02T10:10:10 - 2021-01-01T10:10:10+02:00)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0181(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0182(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1DT5H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0183(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0184(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_009"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-02T10:10:10+01:00 - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0185(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"PT0S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0186(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_011"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P9498D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0187(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dateAndTime_012"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P9498DT5H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0188(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0189(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0190(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2022-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0191(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-02-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0192(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0193(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0194(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-01-01T10:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0195(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""2020-01-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0196(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0197(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-01-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0198(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_011"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-02-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0199(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_012"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2020-01-01T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0200(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_013"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0201(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_014"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-01-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0202(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_015"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-02-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0203(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_ymDuration_016"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2020-01-01T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0204(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_date_001"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T00:00:00 - 2021-01-02)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0205(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_date_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1DT9H10M10S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0206(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_date_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1DT9H10M10S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0207(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_date_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P9498DT9H10M10S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0208(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_date_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P9498DT9H10M10S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0209(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-31T10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0210(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T09:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0211(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T23:00:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0212(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-31T10:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0213(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T23:59:59"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0214(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02T00:00:01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0215(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""2020-12-31T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0216(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01T23:59:59"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0217(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02T00:00:01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0218(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T09:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0219(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_011"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-31T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0220(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_012"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T11:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0221(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_013"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-02T10:10:10+11:00""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0222(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_014"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T09:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0223(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_015"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2022-12-31T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0224(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_016"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-01T11:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0225(b: &mut Bencher) { let invocable_name = "subtract_lhs_dateAndTime_minus_rhs_dtDuration_017"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""-2021-01-02T10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0226(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dateAndTime_001"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-02 - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0227(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dateAndTime_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1DT49M50S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0228(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dateAndTime_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1DT49M50S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0229(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dateAndTime_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"PT0S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0230(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dateAndTime_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P9498DT49M50S"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0231(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_date_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0232(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_date_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P9498D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0233(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_date_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P9498D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0234(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_ymDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0235(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_ymDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0236(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_ymDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0237(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_ymDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2022-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0238(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0239(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0240(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0241(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0242(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0243(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0244(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-02"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0245(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_008"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-01"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0246(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_009"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-12-31"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0247(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_010"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-03"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0248(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_011"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2021-01-03"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0249(b: &mut Bencher) { let invocable_name = "subtract_lhs_date_minus_rhs_dtDuration_012"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"2020-02-29"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0250(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_time_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"PT1H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0251(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_time_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-PT1H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0252(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_time_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-PT1H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0253(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_time_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"PT1H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0254(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_time_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-PT1H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0255(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_time_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"PT1H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0256(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"09:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0257(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"10:10:10"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0258(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_dtDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"10:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0259(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_dtDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""10:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0260(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_dtDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"09:10:10+11:00"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0261(b: &mut Bencher) { let invocable_name = "subtract_lhs_time_minus_rhs_dtDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#""09:10:10@Australia/Melbourne""#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0262(b: &mut Bencher) { let invocable_name = "subtract_lhs_ymDuration_minus_rhs_ymDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P10M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0263(b: &mut Bencher) { let invocable_name = "subtract_lhs_ymDuration_minus_rhs_ymDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P1Y2M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0264(b: &mut Bencher) { let invocable_name = "subtract_lhs_ymDuration_minus_rhs_ymDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P10M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0265(b: &mut Bencher) { let invocable_name = "subtract_lhs_ymDuration_minus_rhs_ymDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y2M"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0266(b: &mut Bencher) { let invocable_name = "subtract_lhs_ymDuration_minus_rhs_ymDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0267(b: &mut Bencher) { let invocable_name = "subtract_lhs_ymDuration_minus_rhs_ymDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1Y"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0268(b: &mut Bencher) { let invocable_name = "subtract_lhs_dtDuration_minus_rhs_dtDuration_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"PT22H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0269(b: &mut Bencher) { let invocable_name = "subtract_lhs_dtDuration_minus_rhs_dtDuration_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-P1DT2H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0270(b: &mut Bencher) { let invocable_name = "subtract_lhs_dtDuration_minus_rhs_dtDuration_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"-PT22H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0271(b: &mut Bencher) { let invocable_name = "subtract_lhs_dtDuration_minus_rhs_dtDuration_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1DT2H"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0272(b: &mut Bencher) { let invocable_name = "subtract_lhs_dtDuration_minus_rhs_dtDuration_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0273(b: &mut Bencher) { let invocable_name = "subtract_lhs_dtDuration_minus_rhs_dtDuration_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"P1D"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0274(b: &mut Bencher) { let invocable_name = "exponent_lhs_number_exp_rhs_number_001"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"25"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0275(b: &mut Bencher) { let invocable_name = "exponent_lhs_number_exp_rhs_number_002"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"0.04"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0276(b: &mut Bencher) { let invocable_name = "exponent_lhs_number_exp_rhs_number_003"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"3486784401"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0277(b: &mut Bencher) { let invocable_name = "exponent_lhs_number_exp_rhs_number_004"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"25"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0278(b: &mut Bencher) { let invocable_name = "exponent_lhs_number_exp_rhs_number_005"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"60.58617166606633673745724928244261"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0279(b: &mut Bencher) { let invocable_name = "exponent_lhs_number_exp_rhs_number_006"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"25"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0280(b: &mut Bencher) { let invocable_name = "exponent_lhs_number_exp_rhs_number_007"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"30.25"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0281(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0282(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0283(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0284(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0285(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0286(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0287(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0288(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0289(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0290(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_number_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: 10 * null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0291(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0292(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0293(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0294(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0295(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0296(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0297(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0298(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0299(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0300(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0301(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0302(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0303(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_string_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0304(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0305(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0306(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0307(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0308(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0309(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0310(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0311(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0312(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0313(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0314(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0315(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0316(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_boolean_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0317(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0318(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0319(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0320(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0321(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0322(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0323(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0324(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0325(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0326(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0327(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0328(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0329(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_date_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0330(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0331(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0332(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0333(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0334(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0335(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0336(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0337(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0338(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0339(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0340(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0341(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0342(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dateAndTime_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0343(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0344(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0345(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0346(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0347(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0348(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0349(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0350(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0351(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0352(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0353(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0354(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0355(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_time_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0356(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0357(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0358(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0359(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0360(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0361(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0362(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0363(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0364(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0365(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0366(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0367(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0368(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_list_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0369(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0370(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0371(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0372(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0373(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0374(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0375(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0376(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0377(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0378(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0379(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0380(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0381(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_context_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0382(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0383(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0384(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0385(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0386(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0387(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0388(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0389(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0390(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0391(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0392(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0393(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_dtDuration_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1D * null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0394(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0395(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0396(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0397(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0398(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0399(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0400(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0401(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0402(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0403(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0404(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0405(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_ymDuration_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([multiplication] incompatible types: P1Y * null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0406(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0407(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0408(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0409(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0410(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0411(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0412(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0413(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0414(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0415(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0416(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0417(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0418(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_range_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0419(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0420(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0421(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0422(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0423(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0424(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0425(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0426(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0427(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0428(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0429(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0430(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0431(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_function_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(unexpected value type in multiplication: function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0432(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0433(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0434(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0435(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0436(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0437(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0438(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0439(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0440(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0441(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0442(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0443(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0444(b: &mut Bencher) { let invocable_name = "error_when_multiply_lhs_null_by_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0445(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0446(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0447(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0448(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0449(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0450(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0451(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0452(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / P1D)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0453(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / P1Y)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0454(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0455(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0456(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_number_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10 / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0457(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0458(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0459(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0460(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0461(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0462(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0463(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0464(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0465(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0466(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0467(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0468(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0469(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_string_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: "10" / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0470(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0471(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0472(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0473(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0474(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0475(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0476(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0477(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0478(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0479(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0480(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0481(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0482(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_boolean_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: true / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0483(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0484(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0485(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0486(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0487(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0488(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0489(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0490(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0491(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0492(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0493(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0494(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0495(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_date_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01 / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0496(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0497(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0498(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0499(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0500(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0501(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0502(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0503(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0504(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0505(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0506(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0507(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0508(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dateAndTime_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 2021-01-01T10:10:10 / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0509(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0510(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0511(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0512(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0513(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0514(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0515(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0516(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0517(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0518(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0519(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0520(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0521(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_time_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: 10:10:10 / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0522(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0523(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0524(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0525(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0526(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0527(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0528(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0529(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0530(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0531(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0532(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0533(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0534(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_list_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [10] / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0535(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0536(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0537(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0538(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0539(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0540(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0541(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0542(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0543(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0544(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0545(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0546(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0547(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_context_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: {a: 10} / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0548(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0549(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0550(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0551(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0552(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0553(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0554(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0555(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0556(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0557(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0558(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_dtDuration_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1D / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0559(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0560(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0561(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0562(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0563(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0564(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0565(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0566(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0567(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0568(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0569(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_ymDuration_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: P1Y / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0570(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0571(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0572(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0573(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0574(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0575(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0576(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0577(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0578(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0579(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0580(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0581(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0582(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_range_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: [1..10] / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0583(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0584(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0585(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0586(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0587(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0588(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0589(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0590(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0591(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0592(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0593(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0594(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0595(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_function_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0596(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0597(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0598(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0599(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0600(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0601(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0602(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0603(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0604(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0605(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0606(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0607(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0608(b: &mut Bencher) { let invocable_name = "error_when_divide_lhs_null_by_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([division] incompatible types: null / null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0609(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + "10"(string))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0610(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + true(boolean))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0611(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + 2021-01-01(date))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0612(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + 2021-01-01T10:10:10(date and time))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0613(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + 10:10:10(time))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0614(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + [10](list))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0615(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + {a: 10}(context))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0616(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + P1D(days and time duration))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0617(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + P1Y(years and months duration))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0618(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + [1..10](range))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0619(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(incompatible types in addition: 10(number) + FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any)(function->Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0620(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_number_to_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0621(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0622(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0623(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0624(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0625(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0626(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0627(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0628(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0629(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0630(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0631(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0632(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_string_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(expected string as a second argument in addition)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0633(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0634(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0635(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0636(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0637(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0638(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0639(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0640(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0641(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0642(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0643(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0644(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0645(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_boolean_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0646(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is number)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0647(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0648(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0649(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0650(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0651(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0652(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0653(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0654(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0655(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0656(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_date_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, actual type is Null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0657(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is number)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0658(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0659(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0660(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0661(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0662(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0663(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0664(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0665(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0666(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0667(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dateAndTime_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, years and months duration, actual type is Null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0668(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is number)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0669(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0670(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0671(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is date)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0672(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is date and time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0673(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0674(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0675(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0676(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is years and months duration)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0677(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0678(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0679(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_time_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, actual type is Null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0680(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0681(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0682(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0683(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0684(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0685(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0686(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0687(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0688(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0689(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0690(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0691(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0692(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_list_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0693(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0694(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0695(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0696(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0697(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0698(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0699(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0700(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0701(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0702(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0703(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0704(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0705(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_context_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0706(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is number)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0707(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0708(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0709(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0710(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0711(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is years and months duration)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0712(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0713(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0714(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_dtDuration_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected days and time duration, date and time, actual type is Null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0715(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is number)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0716(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is string)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0717(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is boolean)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0718(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is time)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0719(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is list)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0720(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is context)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0721(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is days and time duration)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0722(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0723(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0724(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_ymDuration_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected years and months duration, date and time, actual type is Null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0725(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0726(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0727(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0728(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0729(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0730(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0731(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0732(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0733(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0734(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0735(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0736(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0737(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_range_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is range)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0738(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0739(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0740(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0741(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0742(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0743(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0744(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0745(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0746(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0747(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0748(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0749(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0750(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_function_to_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([builders::add] invalid argument type, expected number, string, date and time, days and time duration, years and months duration, null, actual type is function->Any)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0751(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0752(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0753(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0754(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0755(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0756(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0757(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0758(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0759(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0760(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0761(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0762(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0763(b: &mut Bencher) { let invocable_name = "error_when_add_lhs_null_to_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0764(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0765(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0766(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0767(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0768(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0769(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0770(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0771(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0772(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0773(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0774(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0775(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_number_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10 - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0776(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0777(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0778(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0779(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0780(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0781(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0782(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0783(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0784(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0785(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0786(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0787(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0788(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_string_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: "10" - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0789(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0790(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0791(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0792(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0793(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0794(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0795(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0796(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0797(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0798(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0799(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0800(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0801(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_boolean_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: true - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0802(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0803(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0804(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0805(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0806(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0807(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0808(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0809(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0810(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_date_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01 - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0811(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0812(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0813(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0814(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0815(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0816(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0817(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0818(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0819(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dateAndTime_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 2021-01-01T10:10:10 - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0820(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0821(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0822(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0823(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0824(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0825(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0826(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0827(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0828(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0829(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0830(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_time_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: 10:10:10 - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0831(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0832(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0833(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0834(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0835(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0836(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0837(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0838(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0839(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0840(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0841(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0842(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0843(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_list_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [10] - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0844(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0845(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0846(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0847(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0848(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0849(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0850(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0851(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0852(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0853(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0854(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0855(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0856(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_context_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: {a: 10} - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0857(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0858(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0859(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0860(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0861(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0862(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0863(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0864(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0865(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0866(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0867(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0868(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_dtDuration_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1D - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0869(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0870(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0871(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0872(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0873(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0874(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0875(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0876(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0877(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0878(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0879(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0880(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_ymDuration_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: P1Y - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0881(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0882(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0883(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0884(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0885(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0886(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0887(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0888(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0889(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0890(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0891(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0892(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0893(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_range_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: [1..10] - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0894(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0895(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0896(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0897(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0898(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0899(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0900(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0901(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0902(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0903(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0904(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0905(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0906(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_function_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any) - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0907(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_number"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - 10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0908(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_string"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - "10")"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0909(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_boolean"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - true)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0910(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_date"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - 2021-01-01)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0911(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_dateAndTime"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - 2021-01-01T10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0912(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_time"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - 10:10:10)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0913(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_list"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - [10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0914(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_context"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - {a: 10})"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0915(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_dtDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - P1D)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0916(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_ymDuration"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - P1Y)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0917(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_range"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - [1..10])"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0918(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_function"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - FunctionDefinition([(Name("a"), Any)],_,false,[],{},Any))"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0919(b: &mut Bencher) { let invocable_name = "error_when_subtract_lhs_null_minus_rhs_null"; assert_decision( &MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null([subtraction] incompatible types: null - null)"#, ); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0920(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0921(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0922(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0923(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0924(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0925(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0926(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0927(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0928(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0929(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0930(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0931(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_number_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation exponent is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0932(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0933(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0934(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0935(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0936(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0937(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0938(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0939(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0940(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0941(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0942(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0943(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0944(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_string_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0945(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0946(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0947(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0948(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0949(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0950(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0951(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0952(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0953(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0954(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0955(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0956(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0957(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_boolean_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0958(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0959(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0960(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0961(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0962(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0963(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0964(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0965(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0966(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0967(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0968(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0969(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0970(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_date_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0971(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0972(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0973(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0974(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0975(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0976(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0977(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0978(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0979(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0980(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0981(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0982(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0983(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dateAndTime_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0984(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0985(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0986(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0987(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0988(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0989(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0990(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0991(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0992(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0993(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0994(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0995(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0996(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_time_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0997(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0998(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _0999(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1000(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1001(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1002(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1003(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1004(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1005(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1006(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1007(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1008(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1009(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_list_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1010(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1011(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1012(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1013(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1014(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1015(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1016(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1017(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1018(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1019(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1020(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1021(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1022(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_context_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1023(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1024(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1025(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1026(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1027(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1028(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1029(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1030(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1031(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1032(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1033(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1034(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1035(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_dtDuration_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1036(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1037(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1038(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1039(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1040(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1041(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1042(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1043(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1044(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1045(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1046(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1047(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1048(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_ymDuration_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1049(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1050(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1051(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1052(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1053(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1054(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1055(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1056(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1057(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1058(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1059(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1060(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1061(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_range_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1062(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1063(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1064(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1065(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1066(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1067(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1068(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1069(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1070(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1071(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1072(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1073(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1074(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_function_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1075(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_number"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1076(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_string"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1077(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_boolean"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1078(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_date"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1079(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_dateAndTime"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1080(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_time"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1081(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_list"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1082(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_context"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1083(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_dtDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1084(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_ymDuration"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1085(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_range"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1086(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_function"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); } #[bench] fn _1087(b: &mut Bencher) { let invocable_name = "error_when_exponent_lhs_null_exp_rhs_null"; assert_decision(&MODEL_EVALUATOR, &MODEL_NAMESPACE, invocable_name, &CTX, r#"null(exponentiation base is not a number)"#); b.iter(|| MODEL_EVALUATOR.evaluate_invocable(&MODEL_NAMESPACE, invocable_name, &CTX)); }