execute($expression); } catch (Exception $e) { $this->fail(sprintf("Exception: %s (%s:%d), expression was: %s", get_class($e), $e->getFile(), $e->getLine(), $expression)); } $this->assertEquals($phpResult, $result, "Expression was: ${expression}"); } /** * Expressions data provider * * Most tests can go in here. The idea is that each expression will be evaluated by MathExecutor and by PHP with eval. * The results should be the same. If they are not, then the test fails. No need to add extra test unless you are doing * something more complex and not a simple mathmatical expression. */ public function providerExpressions() { return [ ['-5'], ['-5+10'], ['4-5'], ['4 -5'], ['(4*2)-5'], ['(4*2) - 5'], ['4*-5'], ['4 * -5'], ['+5'], ['+(3+2)'], ['+(+3+2)'], ['+(-3+2)'], ['-5'], ['-(-5)'], ['-(+5)'], ['+(-5)'], ['+(+5)'], ['-(3+2)'], ['-(-3+-2)'], ['abs(1.5)'], ['acos(0.15)'], ['acosh(1.5)'], ['asin(0.15)'], ['atan(0.15)'], ['atan2(1.5, 3.5)'], ['atanh(0.15)'], ['bindec("10101")'], ['ceil(1.5)'], ['cos(1.5)'], ['cosh(1.5)'], ['decbin("15")'], ['dechex("15")'], ['decoct("15")'], ['deg2rad(1.5)'], ['exp(1.5)'], ['expm1(1.5)'], ['floor(1.5)'], ['fmod(1.5, 3.5)'], ['hexdec("abcdef")'], ['hypot(1.5, 3.5)'], ['intdiv(10, 2)'], ['log(1.5)'], ['log10(1.5)'], ['log1p(1.5)'], ['max(1.5, 3.5)'], ['min(1.5, 3.5)'], ['octdec("15")'], ['pi()'], ['pow(1.5, 3.5)'], ['rad2deg(1.5)'], ['round(1.5)'], ['sin(1.5)'], ['sin(12)'], ['+sin(12)'], ['-sin(12)'], ['sinh(1.5)'], ['sqrt(1.5)'], ['tan(1.5)'], ['tanh(1.5)'], ['0.1 + 0.2'], ['1 + 2'], ['0.1 - 0.2'], ['1 - 2'], ['0.1 * 2'], ['1 * 2'], ['0.1 / 0.2'], ['1 / 2'], ['2 * 2 + 3 * 3'], ['2 * 2 / 3 * 3'], ['2 / 2 / 3 / 3'], ['2 / 2 * 3 / 3'], ['2 / 2 * 3 * 3'], ['1 + 0.6 - 3 * 2 / 50'], ['(5 + 3) * -1'], ['-2- 2*2'], ['2- 2*2'], ['2-(2*2)'], ['(2- 2)*2'], ['2 + 2*2'], ['2+ 2*2'], ['2+2*2'], ['(2+2)*2'], ['(2 + 2)*-2'], ['(2+-2)*2'], ['1 + 2 * 3 / (min(1, 5) + 2 + 1)'], ['1 + 2 * 3 / (min(1, 5) - 2 + 5)'], ['1 + 2 * 3 / (min(1, 5) * 2 + 1)'], ['1 + 2 * 3 / (min(1, 5) / 2 + 1)'], ['1 + 2 * 3 / (min(1, 5) / 2 * 1)'], ['1 + 2 * 3 / (min(1, 5) / 2 / 1)'], ['1 + 2 * 3 / (3 + min(1, 5) + 2 + 1)'], ['1 + 2 * 3 / (3 - min(1, 5) - 2 + 1)'], ['1 + 2 * 3 / (3 * min(1, 5) * 2 + 1)'], ['1 + 2 * 3 / (3 / min(1, 5) / 2 + 1)'], ['(1 + 2) * 3 / (3 / min(1, 5) / 2 + 1)'], ['sin(10) * cos(50) / min(10, 20/2)'], ['sin(10) * cos(50) / min(10, (20/2))'], ['sin(10) * cos(50) / min(10, (max(10,20)/2))'], ['100500 * 3.5e5'], ['100500 * 3.5e-5'], ['100500 * 3.5E5'], ['100500 * 3.5E-5'], ['1 + "2" / 3'], ["1.5 + '2.5' / 4"], ['1.5 + "2.5" * ".5"'], ['-1 + -2'], ['-1+-2'], ['-1- -2'], ['-1/-2'], ['-1*-2'], ['(1+2+3+4-5)*7/100'], ['(-1+2+3+4- 5)*7/100'], ['(1+2+3+4- 5)*7/100'], ['( 1 + 2 + 3 + 4 - 5 ) * 7 / 100'], ['1 && 0'], ['1 && 0 && 1'], ['1 || 0'], ['1 && 0 || 1'], ['5 == 3'], ['5 == 5'], ['5 != 3'], ['5 != 5'], ['5 > 3'], ['3 > 5'], ['3 >= 5'], ['3 >= 3'], ['3 < 5'], ['5 < 3'], ['3 <= 5'], ['5 <= 5'], ['10 < 9 || 4 > (2+1)'], ['10 < 9 || 4 > (-2+1)'], ['10 < 9 || 4 > (2+1) && 5 == 5 || 4 != 6 || 3 >= 4 || 3 <= 7'], ['1 + 5 == 3 + 1'], ['1 + 5 == 5 + 1'], ['1 + 5 != 3 + 1'], ['1 + 5 != 5 + 1'], ['1 + 5 > 3 + 1'], ['1 + 3 > 5 + 1'], ['1 + 3 >= 5 + 1'], ['1 + 3 >= 3 + 1'], ['1 + 3 < 5 + 1'], ['1 + 5 < 3 + 1'], ['1 + 3 <= 5 + 1'], ['1 + 5 <= 5 + 1'], ['(-4)'], ['(-4 + 5)'], ['(3 * 1)'], ['(-3 * -1)'], ['1 + (-3 * -1)'], ['1 + ( -3 * 1)'], ['1 + (3 *-1)'], ['1 - 0'], ['1-0'], ['-(1.5)'], ['-log(4)'], ['0-acosh(1.5)'], ['-acosh(1.5)'], ['-(-4)'], ['-(-4 + 5)'], ['-(3 * 1)'], ['-(-3 * -1)'], ['-1 + (-3 * -1)'], ['-1 + ( -3 * 1)'], ['-1 + (3 *-1)'], ['-1 - 0'], ['-1-0'], ['-(4*2)-5'], ['-(4*-2)-5'], ['-(-4*2) - 5'], ['-4*-5'], ]; } public function testUnknownFunctionException() { $calculator = new MathExecutor(); $this->expectException(UnknownFunctionException::class); $calculator->execute('1 * fred("wilma") + 3'); } public function testIncorrectExpressionException() { $calculator = new MathExecutor(); $this->expectException(IncorrectExpressionException::class); $calculator->execute('1 * + '); } public function testZeroDivision() { $calculator = new MathExecutor(); $calculator->setDivisionByZeroIsZero(); $this->assertEquals(0, $calculator->execute('10 / 0')); } public function testZeroDivisionException() { $calculator = new MathExecutor(); $this->expectException(DivisionByZeroException::class); $calculator->execute('10 / 0'); $calculator->setVar('one', 1)->setVar('zero', 0); $this->assertEquals(0.0, $calculator->execute('$one / $zero')); } public function testVariableIncorrectExpressionException() { $calculator = new MathExecutor(); $calculator->setVar('four', 4); $this->assertEquals(4, $calculator->execute('$four')); $this->expectException(IncorrectExpressionException::class); $this->assertEquals(0.0, $calculator->execute('$')); $this->assertEquals(0.0, $calculator->execute('$ + $four')); } public function testExponentiation() { $calculator = new MathExecutor(); $this->assertEquals(100, $calculator->execute('10 ^ 2')); } public function testFunctionParameterOrder() { $calculator = new MathExecutor(); $calculator->addFunction('concat', function ($arg1, $arg2) { return $arg1 . $arg2; }); $this->assertEquals('testing', $calculator->execute('concat("test","ing")')); $this->assertEquals('testing', $calculator->execute("concat('test','ing')")); } public function testFunction() { $calculator = new MathExecutor(); $calculator->addFunction('round', function ($arg) { return round($arg); }); $this->assertEquals(round(100 / 30), $calculator->execute('round(100/30)')); } public function testFunctionIf() { $calculator = new MathExecutor(); $this->assertEquals(30, $calculator->execute( 'if(100 > 99, 30, 0)' )); $this->assertEquals(0, $calculator->execute( 'if(100 < 99, 30, 0)' )); $this->assertEquals(30, $calculator->execute( 'if(98 < 99 && sin(1) < 1, 30, 0)' )); $this->assertEquals(40, $calculator->execute( 'if(98 < 99 && sin(1) < 1, max(30, 40), 0)' )); $this->assertEquals(40, $calculator->execute( 'if(98 < 99 && sin(1) < 1, if(10 > 5, max(30, 40), 1), 0)' )); $this->assertEquals(20, $calculator->execute( 'if(98 < 99 && sin(1) > 1, if(10 > 5, max(30, 40), 1), if(4 <= 4, 20, 21))' )); $this->assertEquals(cos(2), $calculator->execute( 'if(98 < 99 && sin(1) >= 1, max(30, 40), cos(2))' )); $this->assertEquals(cos(2), $calculator->execute( 'if(cos(2), cos(2), 0)' )); $trx_amount = 100000; $calculator->setVar('trx_amount', $trx_amount); $this->assertEquals($trx_amount, $calculator->execute('$trx_amount')); $this->assertEquals($trx_amount * 0.03, $calculator->execute( 'if($trx_amount < 40000, $trx_amount * 0.06, $trx_amount * 0.03)' )); $this->assertEquals($trx_amount * 0.03, $calculator->execute( 'if($trx_amount < 40000, $trx_amount * 0.06, if($trx_amount < 60000, $trx_amount * 0.05, $trx_amount * 0.03))' )); $trx_amount = 39000; $calculator->setVar('trx_amount', $trx_amount); $this->assertEquals($trx_amount * 0.06, $calculator->execute( 'if($trx_amount < 40000, $trx_amount * 0.06, if($trx_amount < 60000, $trx_amount * 0.05, $trx_amount * 0.03))' )); $trx_amount = 59000; $calculator->setVar('trx_amount', $trx_amount); $this->assertEquals($trx_amount * 0.05, $calculator->execute( 'if($trx_amount < 40000, $trx_amount * 0.06, if($trx_amount < 60000, $trx_amount * 0.05, $trx_amount * 0.03))' )); $this->expectException(IncorrectNumberOfFunctionParametersException::class); $this->assertEquals(0.0, $calculator->execute( 'if($trx_amount < 40000, $trx_amount * 0.06)' )); } public function testVariables() { $calculator = new MathExecutor(); $this->assertEquals(3.14159265359, $calculator->execute('$pi')); $this->assertEquals(3.14159265359, $calculator->execute('pi')); $this->assertEquals(2.71828182846, $calculator->execute('$e')); $this->assertEquals(2.71828182846, $calculator->execute('e')); $calculator->setVars([ 'trx_amount' => 100000.01, 'ten' => 10, 'nine' => 9, 'eight' => 8, 'seven' => 7, 'six' => 6, 'five' => 5, 'four' => 4, 'three' => 3, 'two' => 2, 'one' => 1, 'zero' => 0, ]); $this->assertEquals(100000.01, $calculator->execute('$trx_amount')); $this->assertEquals(10 - 9, $calculator->execute('$ten - $nine')); $this->assertEquals(9 - 10, $calculator->execute('$nine - $ten')); $this->assertEquals(10 + 9, $calculator->execute('$ten + $nine')); $this->assertEquals(10 * 9, $calculator->execute('$ten * $nine')); $this->assertEquals(10 / 9, $calculator->execute('$ten / $nine')); $this->assertEquals(10 / (9 / 5), $calculator->execute('$ten / ($nine / $five)')); // test variables without leading $ $this->assertEquals(100000.01, $calculator->execute('trx_amount')); $this->assertEquals(10 - 9, $calculator->execute('ten - nine')); $this->assertEquals(9 - 10, $calculator->execute('nine - ten')); $this->assertEquals(10 + 9, $calculator->execute('ten + nine')); $this->assertEquals(10 * 9, $calculator->execute('ten * nine')); $this->assertEquals(10 / 9, $calculator->execute('ten / nine')); $this->assertEquals(10 / (9 / 5), $calculator->execute('ten / (nine / five)')); } public function testEvaluateFunctionParameters() { $calculator = new MathExecutor(); $calculator->addFunction( 'round', function ($value, $decimals) { return round($value, $decimals); } ); $expression = 'round(100 * 1.111111, 2)'; $phpResult = 0; eval('$phpResult = ' . $expression . ';'); $this->assertEquals($phpResult, $calculator->execute($expression)); $expression = 'round((100*0.04)+(((100*1.02)+0.5)*1.28),2)'; eval('$phpResult = ' . $expression . ';'); $this->assertEquals($phpResult, $calculator->execute($expression)); } public function testFunctionsWithQuotes() { $calculator = new MathExecutor(); $calculator->addFunction('concat', function ($first, $second) { return $first . $second; }); $this->assertEquals('testing', $calculator->execute('concat("test", "ing")')); $this->assertEquals('testing', $calculator->execute("concat('test', 'ing')")); } public function testQuotes() { $calculator = new MathExecutor(); $testString = "some, long. arg; with: different-separators!"; $calculator->addFunction( 'test', function ($arg) use ($testString) { $this->assertEquals($testString, $arg); return 0; } ); $calculator->execute('test("' . $testString . '")'); // single quotes $calculator->execute("test('" . $testString . "')"); // double quotes } public function testBeginWithBracketAndMinus() { $calculator = new MathExecutor(); $this->assertEquals(-4, $calculator->execute('(-4)')); $this->assertEquals(1, $calculator->execute('(-4 + 5)')); } public function testStringComparison() { $calculator = new MathExecutor(); $this->assertEquals(true, $calculator->execute('"a" == \'a\'')); $this->assertEquals(true, $calculator->execute('"hello world" == "hello world"')); $this->assertEquals(false, $calculator->execute('"hello world" == "hola mundo"')); $this->assertEquals(true, $calculator->execute('"hello world" != "hola mundo"')); $this->assertEquals(true, $calculator->execute('"a" < "b"')); $this->assertEquals(false, $calculator->execute('"a" > "b"')); $this->assertEquals(true, $calculator->execute('"a" <= "b"')); $this->assertEquals(false, $calculator->execute('"a" >= "b"')); $this->assertEquals(true, $calculator->execute('"A" != "a"')); } public function testVarStringComparison() { $calculator = new MathExecutor(); $calculator->setVar('var', 97); $this->assertEquals(false, $calculator->execute('97 == "a"')); $this->assertEquals(false, $calculator->execute('$var == "a"')); $calculator->setVar('var', 'a'); $this->assertEquals(true, $calculator->execute('$var == "a"')); } public function testOnVarNotFound() { $calculator = new MathExecutor(); $calculator->setVarNotFoundHandler( function ($varName) { if ($varName == 'undefined') { return 3; } return null; } ); $this->assertEquals(15, $calculator->execute('5 * undefined')); } public function testMinusZero() { $calculator = new MathExecutor(); $this->assertEquals(1, $calculator->execute('1 - 0')); $this->assertEquals(1, $calculator->execute('1-0')); } public function testGetFunctionsReturnsArray() { $calculator = new MathExecutor(); $this->assertIsArray($calculator->getFunctions()); } public function testGetFunctionsReturnsFunctions() { $calculator = new MathExecutor(); $this->assertGreaterThan(40, count($calculator->getFunctions())); } public function testGetVarsReturnsArray() { $calculator = new MathExecutor(); $this->assertIsArray($calculator->getVars()); } public function testGetVarsReturnsCount() { $calculator = new MathExecutor(); $this->assertGreaterThan(1, count($calculator->getVars())); } public function testUndefinedVarThrowsExecption() { $calculator = new MathExecutor(); $this->assertGreaterThan(1, count($calculator->getVars())); $this->expectException(UnknownVariableException::class); $calculator->execute('5 * undefined'); } public function testSetVarsAcceptsAllScalars() { $calculator = new MathExecutor(); $calculator->setVar('boolTrue', true); $calculator->setVar('boolFalse', false); $calculator->setVar('int', 1); $calculator->setVar('null', null); $calculator->setVar('float', 1.1); $calculator->setVar('string', 'string'); $this->assertEquals(8, count($calculator->getVars())); $this->assertEquals(true, $calculator->getVar('boolTrue')); $this->assertEquals(false, $calculator->getVar('boolFalse')); $this->assertEquals(1, $calculator->getVar('int')); $this->assertEquals(null, $calculator->getVar('null')); $this->assertEquals(1.1, $calculator->getVar('float')); $this->assertEquals('string', $calculator->getVar('string')); } public function testSetVarsDoesNotAcceptObject() { $calculator = new MathExecutor(); $this->expectException(MathExecutorException::class); $calculator->setVar('object', $this); } public function testSetVarsDoesNotAcceptResource() { $calculator = new MathExecutor(); $this->expectException(MathExecutorException::class); $calculator->setVar('resource', tmpfile()); } /** * @dataProvider providerExpressionValues */ public function testCalculatingValues($expression, $value) { $calculator = new MathExecutor(); try { $result = $calculator->execute($expression); } catch (Exception $e) { $this->fail(sprintf("Exception: %s (%s:%d), expression was: %s", get_class($e), $e->getFile(), $e->getLine(), $expression)); } $this->assertEquals($value, $result, "${expression} did not evaluate to {$value}"); } /** * Expressions data provider * * Most tests can go in here. The idea is that each expression will be evaluated by MathExecutor and by PHP directly. * The results should be the same. If they are not, then the test fails. No need to add extra test unless you are doing * something more complex and not a simple mathmatical expression. */ public function providerExpressionValues() { return [ ['arccos(0.5)', 1.0471975511966], ['arccos(0.5)', acos(0.5)], ['arccosec(4)', 0.2526802551421], ['arccosec(4)', asin(1/4)], ['arccot(3)', M_PI/2 - atan(3)], ['arccotan(4)', 0.2449786631269], ['arccotan(4)', M_PI/2 - atan(4)], ['arccsc(4)', 0.2526802551421], ['arccsc(4)', asin(1/4)], ['arcctg(3)', M_PI/2 - atan(3)], ['arcsec(4)', 1.3181160716528], ['arcsec(4)', acos(1/4)], ['arcsin(0.5)', 0.5235987755983], ['arcsin(0.5)', asin(0.5)], ['arctan(0.5)', atan(0.5)], ['arctan(4)', 1.3258176636680], ['arctg(0.5)', atan(0.5)], ['cosec(12)', 1 / sin(12)], ['cosec(4)', -1.3213487088109], ['cosh(12)', cosh(12)], ['cot(12)', cos(12) / sin(12)], ['cotan(12)', cos(12) / sin(12)], ['cotan(4)', 0.8636911544506], ['cotg(3)', cos(3) / sin(3)], ['csc(4)', 1 / sin(4)], ['ctg(4)', cos(4) / sin(4)], ['ctn(4)', cos(4) / sin(4)], ['decbin(10)', decbin(10)], ['lg(2)', 0.3010299956639], ['lg(2)', log10(2)], ['ln(2)', 0.6931471805599], ['ln(2)', log(2)], ['sec(4)', -1.5298856564664], ['tg(4)', 1.1578212823496], ]; } public function testCache() { $calculator = new MathExecutor(); $this->assertEquals(256, $calculator->execute('2 ^ 8')); // second arg $cache is true by default $this->assertIsArray($calculator->getCache()); $this->assertEquals(1, count($calculator->getCache())); $this->assertEquals(512, $calculator->execute('2 ^ 9', true)); $this->assertEquals(2, count($calculator->getCache())); $this->assertEquals(1024, $calculator->execute('2 ^ 10', false)); $this->assertEquals(2, count($calculator->getCache())); $calculator->clearCache(); $this->assertIsArray($calculator->getCache()); $this->assertEquals(0, count($calculator->getCache())); $this->assertEquals(2048, $calculator->execute('2 ^ 11', false)); $this->assertEquals(0, count($calculator->getCache())); } }