// This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at https://mozilla.org/MPL/2.0/. mod common; use crate::common::*; use glean_core::metrics::*; use glean_core::CommonMetricData; use glean_core::{test_get_num_recorded_errors, ErrorType}; #[test] fn rate_smoke() { let (glean, _t) = new_glean(None); let metric: RateMetric = RateMetric::new(CommonMetricData { name: "rate".into(), category: "test".into(), send_in_pings: vec!["test1".into()], ..Default::default() }); // Adding 0 doesn't error. metric.add_to_numerator_sync(&glean, 0); metric.add_to_denominator_sync(&glean, 0); assert!(test_get_num_recorded_errors(&glean, metric.meta(), ErrorType::InvalidValue).is_err()); // Adding a negative value errors. metric.add_to_numerator_sync(&glean, -1); metric.add_to_denominator_sync(&glean, -1); assert_eq!( Ok(2), test_get_num_recorded_errors(&glean, metric.meta(), ErrorType::InvalidValue), ); // Getting the value returns 0s if that's all we have. assert_eq!(metric.get_value(&glean, None), Some((0, 0).into())); // And normal values of course work. metric.add_to_numerator_sync(&glean, 22); metric.add_to_denominator_sync(&glean, 7); assert_eq!(metric.get_value(&glean, None), Some((22, 7).into())); } #[test] fn numerator_smoke() { let (glean, _t) = new_glean(None); let metric: NumeratorMetric = NumeratorMetric::new(CommonMetricData { name: "rate".into(), category: "test".into(), send_in_pings: vec!["test1".into()], ..Default::default() }); // Adding 0 doesn't error. metric.add_to_numerator_sync(&glean, 0); assert!(test_get_num_recorded_errors(&glean, metric.meta(), ErrorType::InvalidValue).is_err()); // Adding a negative value errors. metric.add_to_numerator_sync(&glean, -1); assert_eq!( Ok(1), test_get_num_recorded_errors(&glean, metric.meta(), ErrorType::InvalidValue), ); // Getting the value returns 0s if that's all we have. let data = metric.get_value(&glean, None).unwrap(); assert_eq!(0, data.numerator); assert_eq!(0, data.denominator); // And normal values of course work. metric.add_to_numerator_sync(&glean, 22); let data = metric.get_value(&glean, None).unwrap(); assert_eq!(22, data.numerator); assert_eq!(0, data.denominator); } #[test] fn denominator_smoke() { let (glean, _t) = new_glean(None); let meta1 = CommonMetricData { name: "rate1".into(), category: "test".into(), send_in_pings: vec!["test1".into()], ..Default::default() }; let meta2 = CommonMetricData { name: "rate2".into(), category: "test".into(), send_in_pings: vec!["test1".into()], ..Default::default() }; // This acts like a normal counter. let denom: DenominatorMetric = DenominatorMetric::new( CommonMetricData { name: "counter".into(), category: "test".into(), send_in_pings: vec!["test1".into()], ..Default::default() }, vec![meta1.clone(), meta2.clone()], ); let num1 = NumeratorMetric::new(meta1); let num2 = NumeratorMetric::new(meta2); num1.add_to_numerator_sync(&glean, 3); num2.add_to_numerator_sync(&glean, 5); denom.add_sync(&glean, 7); // no errors. assert!(test_get_num_recorded_errors(&glean, num1.meta(), ErrorType::InvalidValue).is_err()); assert!(test_get_num_recorded_errors(&glean, num2.meta(), ErrorType::InvalidValue).is_err()); // Getting the value returns 0s if that's all we have. let data = num1.get_value(&glean, None).unwrap(); assert_eq!(3, data.numerator); assert_eq!(7, data.denominator); let data = num2.get_value(&glean, None).unwrap(); assert_eq!(5, data.numerator); assert_eq!(7, data.denominator); }