# These tests are auto-generated with test data from: # https://github.com/exercism/problem-specifications/tree/main/exercises/forth/canonical-data.json # File last updated on 2024-11-04 import unittest from forth import ( evaluate, StackUnderflowError, ) class ForthTest(unittest.TestCase): def test_parsing_and_numbers_numbers_just_get_pushed_onto_the_stack(self): self.assertEqual(evaluate(["1 2 3 4 5"]), [1, 2, 3, 4, 5]) def test_parsing_and_numbers_pushes_negative_numbers_onto_the_stack(self): self.assertEqual(evaluate(["-1 -2 -3 -4 -5"]), [-1, -2, -3, -4, -5]) def test_addition_can_add_two_numbers(self): self.assertEqual(evaluate(["1 2 +"]), [3]) def test_addition_errors_if_there_is_nothing_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["+"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_addition_errors_if_there_is_only_one_value_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["1 +"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_addition_more_than_two_values_on_the_stack(self): self.assertEqual(evaluate(["1 2 3 +"]), [1, 5]) def test_subtraction_can_subtract_two_numbers(self): self.assertEqual(evaluate(["3 4 -"]), [-1]) def test_subtraction_errors_if_there_is_nothing_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["-"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_subtraction_errors_if_there_is_only_one_value_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["1 -"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_subtraction_more_than_two_values_on_the_stack(self): self.assertEqual(evaluate(["1 12 3 -"]), [1, 9]) def test_multiplication_can_multiply_two_numbers(self): self.assertEqual(evaluate(["2 4 *"]), [8]) def test_multiplication_errors_if_there_is_nothing_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["*"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_multiplication_errors_if_there_is_only_one_value_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["1 *"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_multiplication_more_than_two_values_on_the_stack(self): self.assertEqual(evaluate(["1 2 3 *"]), [1, 6]) def test_division_can_divide_two_numbers(self): self.assertEqual(evaluate(["12 3 /"]), [4]) def test_division_performs_integer_division(self): self.assertEqual(evaluate(["8 3 /"]), [2]) def test_division_errors_if_dividing_by_zero(self): # divide by zero with self.assertRaises(ZeroDivisionError) as err: evaluate(["4 0 /"]) self.assertEqual(type(err.exception), ZeroDivisionError) self.assertEqual(str(err.exception.args[0]), "divide by zero") def test_division_errors_if_there_is_nothing_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["/"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_division_errors_if_there_is_only_one_value_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["1 /"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_division_more_than_two_values_on_the_stack(self): self.assertEqual(evaluate(["1 12 3 /"]), [1, 4]) def test_combined_arithmetic_addition_and_subtraction(self): self.assertEqual(evaluate(["1 2 + 4 -"]), [-1]) def test_combined_arithmetic_multiplication_and_division(self): self.assertEqual(evaluate(["2 4 * 3 /"]), [2]) def test_combined_arithmetic_multiplication_and_addition(self): self.assertEqual(evaluate(["1 3 4 * +"]), [13]) def test_combined_arithmetic_addition_and_multiplication(self): self.assertEqual(evaluate(["1 3 4 + *"]), [7]) def test_dup_copies_a_value_on_the_stack(self): self.assertEqual(evaluate(["1 dup"]), [1, 1]) def test_dup_copies_the_top_value_on_the_stack(self): self.assertEqual(evaluate(["1 2 dup"]), [1, 2, 2]) def test_dup_errors_if_there_is_nothing_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["dup"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_drop_removes_the_top_value_on_the_stack_if_it_is_the_only_one(self): self.assertEqual(evaluate(["1 drop"]), []) def test_drop_removes_the_top_value_on_the_stack_if_it_is_not_the_only_one(self): self.assertEqual(evaluate(["1 2 drop"]), [1]) def test_drop_errors_if_there_is_nothing_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["drop"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_swap_swaps_the_top_two_values_on_the_stack_if_they_are_the_only_ones(self): self.assertEqual(evaluate(["1 2 swap"]), [2, 1]) def test_swap_swaps_the_top_two_values_on_the_stack_if_they_are_not_the_only_ones( self, ): self.assertEqual(evaluate(["1 2 3 swap"]), [1, 3, 2]) def test_swap_errors_if_there_is_nothing_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["swap"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_swap_errors_if_there_is_only_one_value_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["1 swap"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_over_copies_the_second_element_if_there_are_only_two(self): self.assertEqual(evaluate(["1 2 over"]), [1, 2, 1]) def test_over_copies_the_second_element_if_there_are_more_than_two(self): self.assertEqual(evaluate(["1 2 3 over"]), [1, 2, 3, 2]) def test_over_errors_if_there_is_nothing_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["over"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_over_errors_if_there_is_only_one_value_on_the_stack(self): with self.assertRaises(StackUnderflowError) as err: evaluate(["1 over"]) self.assertEqual(type(err.exception), StackUnderflowError) self.assertEqual( str(err.exception.args[0]), "Insufficient number of items in stack" ) def test_user_defined_words_can_consist_of_built_in_words(self): self.assertEqual(evaluate([": dup-twice dup dup ;", "1 dup-twice"]), [1, 1, 1]) def test_user_defined_words_execute_in_the_right_order(self): self.assertEqual(evaluate([": countup 1 2 3 ;", "countup"]), [1, 2, 3]) def test_user_defined_words_can_override_other_user_defined_words(self): self.assertEqual( evaluate([": foo dup ;", ": foo dup dup ;", "1 foo"]), [1, 1, 1] ) def test_user_defined_words_can_override_built_in_words(self): self.assertEqual(evaluate([": swap dup ;", "1 swap"]), [1, 1]) def test_user_defined_words_can_override_built_in_operators(self): self.assertEqual(evaluate([": + * ;", "3 4 +"]), [12]) def test_user_defined_words_can_use_different_words_with_the_same_name(self): self.assertEqual( evaluate([": foo 5 ;", ": bar foo ;", ": foo 6 ;", "bar foo"]), [5, 6] ) def test_user_defined_words_can_define_word_that_uses_word_with_the_same_name(self): self.assertEqual(evaluate([": foo 10 ;", ": foo foo 1 + ;", "foo"]), [11]) def test_user_defined_words_cannot_redefine_non_negative_numbers(self): with self.assertRaises(ValueError) as err: evaluate([": 1 2 ;"]) self.assertEqual(type(err.exception), ValueError) self.assertEqual(str(err.exception.args[0]), "illegal operation") def test_user_defined_words_cannot_redefine_negative_numbers(self): with self.assertRaises(ValueError) as err: evaluate([": -1 2 ;"]) self.assertEqual(type(err.exception), ValueError) self.assertEqual(str(err.exception.args[0]), "illegal operation") def test_user_defined_words_errors_if_executing_a_non_existent_word(self): with self.assertRaises(ValueError) as err: evaluate(["foo"]) self.assertEqual(type(err.exception), ValueError) self.assertEqual(str(err.exception.args[0]), "undefined operation") def test_case_insensitivity_dup_is_case_insensitive(self): self.assertEqual(evaluate(["1 DUP Dup dup"]), [1, 1, 1, 1]) def test_case_insensitivity_drop_is_case_insensitive(self): self.assertEqual(evaluate(["1 2 3 4 DROP Drop drop"]), [1]) def test_case_insensitivity_swap_is_case_insensitive(self): self.assertEqual(evaluate(["1 2 SWAP 3 Swap 4 swap"]), [2, 3, 4, 1]) def test_case_insensitivity_over_is_case_insensitive(self): self.assertEqual(evaluate(["1 2 OVER Over over"]), [1, 2, 1, 2, 1]) def test_case_insensitivity_user_defined_words_are_case_insensitive(self): self.assertEqual(evaluate([": foo dup ;", "1 FOO Foo foo"]), [1, 1, 1, 1]) def test_case_insensitivity_definitions_are_case_insensitive(self): self.assertEqual(evaluate([": SWAP DUP Dup dup ;", "1 swap"]), [1, 1, 1, 1])