"""Tests for calc.parser — assert on tree structure, not evaluation.""" import unittest from calc.lexer import tokenize from calc.parser import parse, ParseError, Num, BinOp, Unary def p(src): return parse(tokenize(src)) class TestPrecedence(unittest.TestCase): """D1 — * and / bind tighter than + and -.""" def test_add_mul(self): # 1+2*3 => BinOp('+', Num(1), BinOp('*', Num(2), Num(3))) tree = p("1+2*3") self.assertEqual(tree, BinOp('+', Num(1), BinOp('*', Num(2), Num(3)))) def test_mul_add(self): # 2*3+4 => BinOp('+', BinOp('*', Num(2), Num(3)), Num(4)) tree = p("2*3+4") self.assertEqual(tree, BinOp('+', BinOp('*', Num(2), Num(3)), Num(4))) def test_sub_div(self): # 10-6/2 => BinOp('-', Num(10), BinOp('/', Num(6), Num(2))) tree = p("10-6/2") self.assertEqual(tree, BinOp('-', Num(10), BinOp('/', Num(6), Num(2)))) class TestLeftAssociativity(unittest.TestCase): """D2 — same-precedence ops associate left.""" def test_sub_assoc(self): # 8-3-2 => BinOp('-', BinOp('-', Num(8), Num(3)), Num(2)) tree = p("8-3-2") self.assertEqual(tree, BinOp('-', BinOp('-', Num(8), Num(3)), Num(2))) def test_div_assoc(self): # 8/4/2 => BinOp('/', BinOp('/', Num(8), Num(4)), Num(2)) tree = p("8/4/2") self.assertEqual(tree, BinOp('/', BinOp('/', Num(8), Num(4)), Num(2))) def test_add_assoc(self): # 1+2+3 => BinOp('+', BinOp('+', Num(1), Num(2)), Num(3)) tree = p("1+2+3") self.assertEqual(tree, BinOp('+', BinOp('+', Num(1), Num(2)), Num(3))) def test_mul_assoc(self): # 2*3*4 => BinOp('*', BinOp('*', Num(2), Num(3)), Num(4)) tree = p("2*3*4") self.assertEqual(tree, BinOp('*', BinOp('*', Num(2), Num(3)), Num(4))) class TestParentheses(unittest.TestCase): """D3 — parens override precedence.""" def test_paren_add_mul(self): # (1+2)*3 => BinOp('*', BinOp('+', Num(1), Num(2)), Num(3)) tree = p("(1+2)*3") self.assertEqual(tree, BinOp('*', BinOp('+', Num(1), Num(2)), Num(3))) def test_nested_parens(self): # ((2+3)) => BinOp('+', Num(2), Num(3)) -- outer parens just unwrap tree = p("((2+3))") self.assertEqual(tree, BinOp('+', Num(2), Num(3))) def test_paren_single_num(self): tree = p("(42)") self.assertEqual(tree, Num(42)) class TestUnaryMinus(unittest.TestCase): """D4 — leading and nested unary minus.""" def test_unary_simple(self): # -5 => Unary('-', Num(5)) tree = p("-5") self.assertEqual(tree, Unary('-', Num(5))) def test_unary_paren(self): # -(1+2) => Unary('-', BinOp('+', Num(1), Num(2))) tree = p("-(1+2)") self.assertEqual(tree, Unary('-', BinOp('+', Num(1), Num(2)))) def test_mul_unary(self): # 3 * -2 => BinOp('*', Num(3), Unary('-', Num(2))) tree = p("3 * -2") self.assertEqual(tree, BinOp('*', Num(3), Unary('-', Num(2)))) def test_double_unary(self): # --5 => Unary('-', Unary('-', Num(5))) tree = p("--5") self.assertEqual(tree, Unary('-', Unary('-', Num(5)))) class TestErrors(unittest.TestCase): """D5 — malformed input raises ParseError.""" def test_trailing_op(self): with self.assertRaises(ParseError): p("1 +") def test_unclosed_paren(self): with self.assertRaises(ParseError): p("(1") def test_two_numbers(self): with self.assertRaises(ParseError): p("1 2") def test_close_then_open(self): with self.assertRaises(ParseError): p(")(") def test_empty_string(self): with self.assertRaises(ParseError): p("") def test_only_paren(self): with self.assertRaises(ParseError): p("()") if __name__ == "__main__": unittest.main()