// Adapted from https://github.com/Alexhuszagh/rust-lexical. use crate::lexical::num::{AsPrimitive, Float, Integer, Number}; fn check_as_primitive(t: T) { let _: u32 = t.as_u32(); let _: u64 = t.as_u64(); let _: u128 = t.as_u128(); let _: usize = t.as_usize(); let _: f32 = t.as_f32(); let _: f64 = t.as_f64(); } #[test] fn as_primitive_test() { check_as_primitive(1u32); check_as_primitive(1u64); check_as_primitive(1u128); check_as_primitive(1usize); check_as_primitive(1f32); check_as_primitive(1f64); } fn check_number(x: T, y: T) { // Copy, partialeq, partialord let _ = x; assert!(x < y); assert!(x != y); // Operations let _ = y + x; // Conversions already tested. } #[test] fn number_test() { check_number(1u32, 5); check_number(1u64, 5); check_number(1u128, 5); check_number(1usize, 5); check_number(1f32, 5.0); check_number(1f64, 5.0); } fn check_integer(x: T) { // Bitwise operations let _ = x & T::ZERO; } #[test] fn integer_test() { check_integer(65u32); check_integer(65u64); check_integer(65u128); check_integer(65usize); } fn check_float(x: T) { // Check functions let _ = x.pow10(5); let _ = x.to_bits(); assert!(T::from_bits(x.to_bits()) == x); // Check properties let _ = x.to_bits() & T::EXPONENT_MASK; let _ = x.to_bits() & T::HIDDEN_BIT_MASK; let _ = x.to_bits() & T::MANTISSA_MASK; } #[test] fn float_test() { check_float(123f32); check_float(123f64); }