import 'package:test/test.dart'; import 'package:d4rt_formulas/formula_models.dart'; import 'package:d4rt_formulas/formula_evaluator.dart'; void main() { group('FormulaEvaluator', () { late FormulaEvaluator evaluator; setUp(() { evaluator = FormulaEvaluator(); }); group('Basic evaluation', () { test('evaluates Newton\'s second law formula', () { final formula = Formula( name: "Newton's second law", input: [ VariableSpec(name: 'm', unit: 'mass'), VariableSpec(name: 'a', unit: 'acceleration'), ], output: VariableSpec(name: 'F', unit: 'force'), d4rtCode: ''' F = a * m; ''', ); final result = evaluator.evaluate(formula, { 'm': 10.0, // 10 kg 'a': 9.8, // 9.8 m/s² }); expect(result, 98.0); // F = m * a = 10 * 9.8 = 98 N }); test('evaluates simple arithmetic formula', () { final formula = Formula( name: 'Simple addition', input: [ VariableSpec(name: 'x', unit: 'scalar'), VariableSpec(name: 'y', unit: 'scalar'), ], output: VariableSpec(name: 'result', unit: 'scalar'), d4rtCode: ''' result = x + y; ''', ); final result = evaluator.evaluate(formula, {'x': 5, 'y': 3}); expect(result, 8); }); test('handles single input variable', () { final formula = Formula( name: 'Square function', input: [VariableSpec(name: 'n', unit: 'scalar')], output: VariableSpec(name: 'result', unit: 'scalar'), d4rtCode: ''' result = n * n; ''', ); final result = evaluator.evaluate(formula, {'n': 7}); expect(result, 49); }); test('handles complex mathematical operations', () { final formula = Formula( name: 'Quadratic formula discriminant', input: [ VariableSpec(name: 'a', unit: 'scalar'), VariableSpec(name: 'b', unit: 'scalar'), VariableSpec(name: 'c', unit: 'scalar'), ], output: VariableSpec(name: 'discriminant', unit: 'scalar'), d4rtCode: ''' discriminant = b * b - 4 * a * c; ''', ); final result = evaluator.evaluate(formula, {'a': 1, 'b': 5, 'c': 6}); expect(result, 1); // b² - 4ac = 25 - 24 = 1 }); }); group('Input variable order', () { test('maintains consistent alphabetical order for input variables', () { final formula = Formula( name: 'Test order', input: [ VariableSpec(name: 'z', unit: 'scalar'), VariableSpec(name: 'a', unit: 'scalar'), VariableSpec(name: 'b', unit: 'scalar'), ], output: VariableSpec(name: 'result', unit: 'scalar'), d4rtCode: 'result = a + b + z;', ); final order = evaluator.getInputVariableOrder(formula); expect(order, ['a', 'b', 'z']); }); test('passes arguments in correct alphabetical order', () { final formula = Formula( name: 'Test argument order', input: [ VariableSpec(name: 'z', unit: 'scalar'), VariableSpec(name: 'a', unit: 'scalar'), VariableSpec(name: 'y', unit: 'scalar'), ], output: VariableSpec(name: 'result', unit: 'scalar'), d4rtCode: ''' // Variables: a=1, y=2, z=3 result = a * 100 + y * 10 + z; ''', ); final result = evaluator.evaluate(formula, {'z': 3, 'a': 1, 'y': 2}); expect(result, 123); // 1*100 + 2*10 + 3 = 123 }); }); group('Error handling', () { test('throws exception for missing input variables', () { final formula = Formula( name: 'Test formula', input: [ VariableSpec(name: 'x', unit: 'scalar'), VariableSpec(name: 'y', unit: 'scalar'), ], output: VariableSpec(name: 'result', unit: 'scalar'), d4rtCode: 'result = x + y;', ); expect( () => evaluator.evaluate(formula, {'x': 1}), // Missing 'y' throwsA(isA()), ); }); test('throws exception for invalid d4rt code', () { final formula = Formula( name: 'Invalid code formula', input: [VariableSpec(name: 'x', unit: 'scalar')], output: VariableSpec(name: 'result', unit: 'scalar'), d4rtCode: 'invalid dart code here!', ); expect( () => evaluator.evaluate(formula, {'x': 1}), throwsA(isA()), ); }); }); group('Utility methods', () { test('getOutputVariableName returns the single output variable name', () { final formula = Formula( name: 'Test', input: [VariableSpec(name: 'x', unit: 'scalar')], output: VariableSpec(name: 'force', unit: 'Newton'), d4rtCode: 'force = x;', ); expect(evaluator.getOutputVariableName(formula), 'force'); }); test( 'getOutputVariableMagnitude returns the output variable magnitude', () { final formula = Formula( name: 'Test', input: [VariableSpec(name: 'x', unit: 'scalar')], output: VariableSpec(name: 'force', unit: 'Newton'), d4rtCode: 'force = x;', ); expect(evaluator.getOutputVariableMagnitude(formula), 'Newton'); }, ); test('utility methods work correctly with valid formulas', () { final validFormula = Formula( name: 'Valid Formula', input: [VariableSpec(name: 'x', unit: 'scalar')], output: VariableSpec(name: 'result', unit: 'Newton'), d4rtCode: 'result = x;', ); expect(evaluator.getOutputVariableName(validFormula), 'result'); expect(evaluator.getOutputVariableMagnitude(validFormula), 'Newton'); }); }); group('Data types', () { test('handles integer values', () { final formula = Formula( name: 'Integer test', input: [VariableSpec(name: 'n', unit: 'count')], output: VariableSpec(name: 'result', unit: 'count'), d4rtCode: 'result = n + 1;', ); final result = evaluator.evaluate(formula, {'n': 42}); expect(result, 43); }); test('handles double values', () { final formula = Formula( name: 'Double test', input: [VariableSpec(name: 'x', unit: 'length')], output: VariableSpec(name: 'result', unit: 'area'), d4rtCode: 'result = x * x;', ); final result = evaluator.evaluate(formula, {'x': 3.14}); expect(result, closeTo(9.8596, 0.0001)); }); }); }); }