use crate::{ assert_satisfied, expect_synthesis_error, generate_main_input, integers::{expect_computation_error, expect_parsing_error, IntegerTester}, parse_program, }; use leo_input::types::{I128Type, IntegerType}; use leo_types::InputValue; test_int!(Testi128, i128, IntegerType::I128Type(I128Type {}), Int128); #[test] fn test_i128_min() { Testi128::test_min(); } #[test] fn test_i128_min_fail() { Testi128::test_min_fail(); } #[test] fn test_i128_max() { Testi128::test_max(); } #[test] fn test_i128_max_fail() { Testi128::test_max_fail(); } #[test] fn test_i128_add() { Testi128::test_add(); } #[test] fn test_i128_sub() { Testi128::test_sub(); } #[test] fn test_i128_mul() { Testi128::test_mul(); } #[test] #[ignore] // takes several minutes fn test_i128_div() { Testi128::test_div(); } #[test] fn test_i128_pow() { Testi128::test_pow(); } #[test] fn test_i128_eq() { Testi128::test_eq(); } #[test] fn test_i128_ge() { Testi128::test_ge(); } #[test] fn test_i128_gt() { Testi128::test_gt(); } #[test] fn test_i128_le() { Testi128::test_le(); } #[test] fn test_i128_lt() { Testi128::test_lt(); } #[test] fn test_i128_assert_eq() { Testi128::test_assert_eq(); } #[test] fn test_i128_ternary() { Testi128::test_ternary(); }