use crate::{ boolean::{output_expected_boolean, output_false, output_true}, compile_program, get_output, integer::{fail_integer, fail_synthesis, IntegerTester}, EdwardsConstrainedValue, EdwardsTestCompiler, }; use leo_compiler::{types::Integer, ConstrainedValue, InputValue}; use snarkos_curves::edwards_bls12::Fq; use snarkos_models::gadgets::r1cs::TestConstraintSystem; use snarkos_models::gadgets::utilities::{alloc::AllocGadget, uint::UInt32}; const DIRECTORY_NAME: &str = "tests/integer/u32/"; fn output_expected_allocated(program: EdwardsTestCompiler, expected: UInt32) { let output = get_output(program); match output { EdwardsConstrainedValue::Return(vec) => match vec.as_slice() { [ConstrainedValue::Integer(Integer::U32(actual))] => assert_eq!(*actual, expected), _ => panic!("program output unknown return value"), }, _ => panic!("program output unknown return value"), } } pub(crate) fn output_zero(program: EdwardsTestCompiler) { let output = get_output(program); assert_eq!( EdwardsConstrainedValue::Return(vec![ConstrainedValue::Integer(Integer::U32( UInt32::constant(0u32) ))]) .to_string(), output.to_string() ) } pub(crate) fn output_one(program: EdwardsTestCompiler) { let output = get_output(program); assert_eq!( EdwardsConstrainedValue::Return(vec![ConstrainedValue::Integer(Integer::U32( UInt32::constant(1u32) ))]) .to_string(), output.to_string() ) } #[test] fn test_u32() { test_uint!(TestU32, u32, UInt32, DIRECTORY_NAME); TestU32::test_min(std::u32::MIN); TestU32::test_max(std::u32::MAX); TestU32::test_input(); TestU32::test_add(); // TestU32::test_sub(); //Todo: Catch subtraction overflow error in gadget TestU32::test_mul(); TestU32::test_div(); TestU32::test_pow(); // takes about 2 mins TestU32::test_eq(); TestU32::test_ge(); TestU32::test_gt(); TestU32::test_le(); TestU32::test_gt(); TestU32::test_assert_eq(); TestU32::test_ternary(); } #[test] fn test_zero() { let program = compile_program(DIRECTORY_NAME, "zero.leo").unwrap(); output_zero(program); } #[test] fn test_one() { let program = compile_program(DIRECTORY_NAME, "one.leo").unwrap(); output_one(program); }