mirror of
https://github.com/AleoHQ/leo.git
synced 2024-12-30 13:12:53 +03:00
224 lines
6.6 KiB
Rust
224 lines
6.6 KiB
Rust
// Copyright (C) 2019-2020 Aleo Systems Inc.
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// This file is part of the Leo library.
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// The Leo library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// The Leo library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with the Leo library. If not, see <https://www.gnu.org/licenses/>.
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use crate::{
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assert_satisfied,
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expect_compiler_error,
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generate_main_input,
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generate_test_input_u32,
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get_output,
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parse_program,
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parse_program_with_input,
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EdwardsTestCompiler,
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};
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use leo_ast::InputValue;
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#[test]
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fn test_assert() {
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let bytes = include_bytes!("assert.leo");
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let mut program_1_pass = parse_program(bytes).unwrap();
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let mut program_0_pass = program_1_pass.clone();
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let mut program_2_fail = program_1_pass.clone();
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// Check that an input value of 1 satisfies the constraint system
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let main_input = generate_main_input(vec![("a", generate_test_input_u32(1))]);
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program_1_pass.set_main_input(main_input);
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assert_satisfied(program_1_pass);
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// Check that an input value of 0 satisfies the constraint system
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let main_input = generate_main_input(vec![("a", generate_test_input_u32(0))]);
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program_0_pass.set_main_input(main_input);
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assert_satisfied(program_0_pass);
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// Check that an input value of 2 does not satisfy the constraint system
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let main_input = generate_main_input(vec![("a", generate_test_input_u32(2))]);
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program_2_fail.set_main_input(main_input);
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expect_compiler_error(program_2_fail);
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}
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#[test]
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fn test_mutate() {
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let bytes = include_bytes!("mutate.leo");
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let mut program_1_pass = parse_program(bytes).unwrap();
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let mut program_0_pass = program_1_pass.clone();
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// Check that an input value of 1 satisfies the constraint system
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let main_input = generate_main_input(vec![("a", generate_test_input_u32(1))]);
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program_1_pass.set_main_input(main_input);
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assert_satisfied(program_1_pass);
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// Check that an input value of 0 satisfies the constraint system
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let main_input = generate_main_input(vec![("a", generate_test_input_u32(0))]);
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program_0_pass.set_main_input(main_input);
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assert_satisfied(program_0_pass);
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}
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#[test]
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fn test_for_loop() {
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let bytes = include_bytes!("for_loop.leo");
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let mut program_true_6 = parse_program(bytes).unwrap();
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let mut program_false_0 = program_true_6.clone();
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// Check that an input value of true satisfies the constraint system
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let main_input = generate_main_input(vec![("a", Some(InputValue::Boolean(true)))]);
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program_true_6.set_main_input(main_input);
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assert_satisfied(program_true_6);
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// Check that an input value of false satisfies the constraint system
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let main_input = generate_main_input(vec![("a", Some(InputValue::Boolean(false)))]);
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program_false_0.set_main_input(main_input);
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assert_satisfied(program_false_0);
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}
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#[test]
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fn test_chain() {
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let bytes = include_bytes!("chain.leo");
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let mut program_1_1 = parse_program(bytes).unwrap();
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let mut program_2_2 = program_1_1.clone();
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let mut program_4_3 = program_1_1.clone();
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// Check that an input of 1 outputs 1
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let main_input = generate_main_input(vec![
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("a", generate_test_input_u32(1)),
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("b", generate_test_input_u32(1)),
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]);
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program_1_1.set_main_input(main_input);
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assert_satisfied(program_1_1);
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// Check that an input of 2 outputs 2
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let main_input = generate_main_input(vec![
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("a", generate_test_input_u32(2)),
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("b", generate_test_input_u32(2)),
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]);
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program_2_2.set_main_input(main_input);
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assert_satisfied(program_2_2);
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// Check that an input of 4 outputs 3
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let main_input = generate_main_input(vec![
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("a", generate_test_input_u32(4)),
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("b", generate_test_input_u32(3)),
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]);
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program_4_3.set_main_input(main_input);
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assert_satisfied(program_4_3);
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}
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#[test]
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fn test_nested() {
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let bytes = include_bytes!("nested.leo");
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let mut program_true_true_3 = parse_program(bytes).unwrap();
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let mut program_true_false_1 = program_true_true_3.clone();
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let mut program_false_false_0 = program_true_true_3.clone();
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// Check that an input value of true true outputs 3
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Boolean(true))),
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("b", Some(InputValue::Boolean(true))),
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("c", generate_test_input_u32(3)),
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]);
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program_true_true_3.set_main_input(main_input);
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assert_satisfied(program_true_true_3);
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// Check that an input value of true false outputs 1
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Boolean(true))),
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("b", Some(InputValue::Boolean(false))),
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("c", generate_test_input_u32(1)),
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]);
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program_true_false_1.set_main_input(main_input);
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assert_satisfied(program_true_false_1);
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// Check that an input value of false false outputs 0
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Boolean(false))),
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("b", Some(InputValue::Boolean(false))),
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("c", generate_test_input_u32(0)),
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]);
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program_false_false_0.set_main_input(main_input);
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assert_satisfied(program_false_false_0);
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}
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fn output_one(program: EdwardsTestCompiler) {
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let expected = include_bytes!("output/registers_one.out");
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let actual = get_output(program);
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assert_eq!(expected, actual.bytes().as_slice());
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}
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fn output_zero(program: EdwardsTestCompiler) {
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let expected = include_bytes!("output/registers_zero.out");
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let actual = get_output(program);
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assert_eq!(expected, actual.bytes().as_slice());
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}
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#[test]
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fn test_multiple_returns() {
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let program_bytes = include_bytes!("multiple_returns.leo");
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// Check that an input value of 1 writes 1 to the output registers
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let registers_one_bytes = include_bytes!("input/registers_one.in");
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let program = parse_program_with_input(program_bytes, registers_one_bytes).unwrap();
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output_one(program);
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// Check that an input value of 0 writes 0 to the output registers
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let registers_zero_bytes = include_bytes!("input/registers_zero.in");
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let program = parse_program_with_input(program_bytes, registers_zero_bytes).unwrap();
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output_zero(program);
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}
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