//! Assertion macro tests #![feature(plugin)] #![allow(unstable)] #[plugin] #[macro_use] extern crate nalgebra; use nalgebra::{ApproxEq, Vec2}; #[test] fn assert_approx_eq_f64() { let a = 1.0f64; let b = 1.0f64 + 1.0e-12f64; assert_approx_eq!(a, b); } #[test] #[should_fail] fn assert_approx_eq_vec2_f32_fail() { let a = Vec2::new(1.0f32, 0.0); let b = Vec2::new(1.1f32, 0.1); assert_approx_eq!(a, b); } #[test] fn assert_approx_eq_eps_f32() { assert_approx_eq_eps!(1.0f32, 1.1, 0.2); } #[test] #[should_fail] fn assert_approx_eq_eps_f64_fail() { assert_approx_eq_eps!(1.0f64, 1.1, 0.05); } #[test] fn assert_approx_eq_ulps_f32() { let x = 1000000_f32; let y = 1000000.1_f32; assert!(x != y); assert_approx_eq_ulps!(x, y, 3); } #[test] #[should_fail] fn assert_approx_eq_ulps_f32_fail() { let x = 1000000_f32; let y = 1000000.1_f32; assert_approx_eq_ulps!(x, y, 2); } #[test] fn assert_approx_eq_ulps_f64() { let x = 1000000_f64; let y = 1000000.0000000003_f64; assert!(x != y); assert_approx_eq_ulps!(x, y, 4); } #[test] #[should_fail] fn assert_approx_eq_ulps_f64_fail() { let x = 1000000_f64; let y = 1000000.0000000003_f64; assert!(x != y); assert_approx_eq_ulps!(x, y, 3); }