# How to make a calculator in PHP?

I want to use PHP to calculate simple algebraic expressions like, `8*(5+1)`, entered via an `<input>` tag by a normal user (which means, normal notation: no syntax changes like `Multiply(8, Add(5, 1)))`. Also, it has to show all steps, but that's not hard. The problem, right now, is calculating the value of the expressions.

Note: this is what I thought so far, which is quite inefficient but it's a provisory solution. Just replace strings where possible: in our example, recognize the string `5+1` and replace it with `6`. Then, loop again, replace `(6)` with `6`, loop again, and replace `8*6` with `48`. The code for multiplying, for example, should look like this:

``````for (\$a=1; \$a < 1000; \$a++) {
for (\$b=1; \$b < 1000; \$b++) {
string_replace(\$a . '*' . \$b, \$a*\$b, \$string);
}
}
``````
-
First thoughts that come to mind is using a stack to push operations and them writing down the order of operations rules you use to decide what operations are performed first. That will help you translate them into code. –  thatidiotguy Oct 2 '12 at 14:54
google "Djikstra shunting yard" algorithm, or take a look at the evalmath library on phpclasses –  Mark Baker Oct 2 '12 at 14:55
For reference, back ticks on a Mac keyboard are next to the `Z` –  BenM Oct 2 '12 at 14:55
Use a regex for assertion, then just `eval` it. That's what it's for, even though pros like more convoluted approaches, and yes, newbies should generally shy away. –  mario Oct 2 '12 at 14:55
possible duplicate of Preg_replace simple math problem with solution? and Securely evaluate simple maths –  mario Oct 2 '12 at 14:55

Depending on your needs, I would suggest looking into the Shunting Yard Algorithm. It's pretty easy to implement, and works quite well.

Here's an example I whipped up a while ago: GIST.

Here's the code copy/pasted into one block:

Expression Definitions:

``````class Parenthesis extends TerminalExpression {

protected \$precidence = 7;

public function operate(Stack \$stack) {
}

public function getPrecidence() {
return \$this->precidence;
}

public function isNoOp() {
return true;
}

public function isParenthesis() {
return true;
}

public function isOpen() {
return \$this->value == '(';
}

}

class Number extends TerminalExpression {

public function operate(Stack \$stack) {
return \$this->value;
}

}

abstract class Operator extends TerminalExpression {

protected \$precidence = 0;
protected \$leftAssoc = true;

public function getPrecidence() {
return \$this->precidence;
}

public function isLeftAssoc() {
return \$this->leftAssoc;
}

public function isOperator() {
return true;
}

}

class Addition extends Operator {

protected \$precidence = 4;

public function operate(Stack \$stack) {
return \$stack->pop()->operate(\$stack) + \$stack->pop()->operate(\$stack);
}

}

class Subtraction extends Operator {

protected \$precidence = 4;

public function operate(Stack \$stack) {
\$left = \$stack->pop()->operate(\$stack);
\$right = \$stack->pop()->operate(\$stack);
return \$right - \$left;
}

}

class Multiplication extends Operator {

protected \$precidence = 5;

public function operate(Stack \$stack) {
return \$stack->pop()->operate(\$stack) * \$stack->pop()->operate(\$stack);
}

}

class Division extends Operator {

protected \$precidence = 5;

public function operate(Stack \$stack) {
\$left = \$stack->pop()->operate(\$stack);
\$right = \$stack->pop()->operate(\$stack);
return \$right / \$left;
}

}

class Power extends Operator {

protected \$precidence=6;

public function operate(Stack \$stack) {
\$left = \$stack->pop()->operate(\$stack);
\$right = \$stack->pop()->operate(\$stack);
return pow(\$right, \$left);
}
}

abstract class TerminalExpression {

protected \$value = '';

public function __construct(\$value) {
\$this->value = \$value;
}

public static function factory(\$value) {
if (is_object(\$value) && \$value instanceof TerminalExpression) {
return \$value;
} elseif (is_numeric(\$value)) {
return new Number(\$value);
} elseif (\$value == '+') {
} elseif (\$value == '-') {
return new Subtraction(\$value);
} elseif (\$value == '*') {
return new Multiplication(\$value);
} elseif (\$value == '/') {
return new Division(\$value);
} elseif (\$value == '^') {
return new Power(\$value);
} elseif (in_array(\$value, array('(', ')'))) {
return new Parenthesis(\$value);
}
throw new Exception('Undefined Value ' . \$value);
}

abstract public function operate(Stack \$stack);

public function isOperator() {
return false;
}

public function isParenthesis() {
return false;
}

public function isNoOp() {
return false;
}

public function render() {
return \$this->value;
}
}
``````

The stack (really simple implementation):

``````class Stack {

protected \$data = array();

public function push(\$element) {
\$this->data[] = \$element;
}

public function poke() {
return end(\$this->data);
}

public function pop() {
return array_pop(\$this->data);
}

}
``````

And finally, the executor class:

``````class Math {

protected \$variables = array();

public function evaluate(\$string) {
\$stack = \$this->parse(\$string);
return \$this->run(\$stack);
}

public function parse(\$string) {
\$tokens = \$this->tokenize(\$string);
\$output = new Stack();
\$operators = new Stack();
foreach (\$tokens as \$token) {
\$token = \$this->extractVariables(\$token);
\$expression = TerminalExpression::factory(\$token);
if (\$expression->isOperator()) {
\$this->parseOperator(\$expression, \$output, \$operators);
} elseif (\$expression->isParenthesis()) {
\$this->parseParenthesis(\$expression, \$output, \$operators);
} else {
\$output->push(\$expression);
}
}
while ((\$op = \$operators->pop())) {
if (\$op->isParenthesis()) {
throw new RuntimeException('Mismatched Parenthesis');
}
\$output->push(\$op);
}
return \$output;
}

public function registerVariable(\$name, \$value) {
\$this->variables[\$name] = \$value;
}

public function run(Stack \$stack) {
while ((\$operator = \$stack->pop()) && \$operator->isOperator()) {
\$value = \$operator->operate(\$stack);
if (!is_null(\$value)) {
\$stack->push(TerminalExpression::factory(\$value));
}
}
return \$operator ? \$operator->render() : \$this->render(\$stack);
}

protected function extractVariables(\$token) {
if (\$token[0] == '\$') {
\$key = substr(\$token, 1);
return isset(\$this->variables[\$key]) ? \$this->variables[\$key] : 0;
}
return \$token;
}

protected function render(Stack \$stack) {
\$output = '';
while ((\$el = \$stack->pop())) {
\$output .= \$el->render();
}
if (\$output) {
return \$output;
}
throw new RuntimeException('Could not render output');
}

protected function parseParenthesis(TerminalExpression \$expression, Stack \$output, Stack \$operators) {
if (\$expression->isOpen()) {
\$operators->push(\$expression);
} else {
\$clean = false;
while ((\$end = \$operators->pop())) {
if (\$end->isParenthesis()) {
\$clean = true;
break;
} else {
\$output->push(\$end);
}
}
if (!\$clean) {
throw new RuntimeException('Mismatched Parenthesis');
}
}
}

protected function parseOperator(TerminalExpression \$expression, Stack \$output, Stack \$operators) {
\$end = \$operators->poke();
if (!\$end) {
\$operators->push(\$expression);
} elseif (\$end->isOperator()) {
do {
if (\$expression->isLeftAssoc() && \$expression->getPrecidence() <= \$end->getPrecidence()) {
\$output->push(\$operators->pop());
} elseif (!\$expression->isLeftAssoc() && \$expression->getPrecidence() < \$end->getPrecidence()) {
\$output->push(\$operators->pop());
} else {
break;
}
} while ((\$end = \$operators->poke()) && \$end->isOperator());
\$operators->push(\$expression);
} else {
\$operators->push(\$expression);
}
}

protected function tokenize(\$string) {
\$parts = preg_split('((\d+|\+|-|\(|\)|\*|/)|\s+)', \$string, null, PREG_SPLIT_NO_EMPTY | PREG_SPLIT_DELIM_CAPTURE);
\$parts = array_map('trim', \$parts);
return \$parts;
}

}
``````

It works by first tokenizing the input (based on word boundary, and tokens). Then, it runs the Shunting Yard algorithm on it to convert the input into a RPN (Reverse Polish Notation) stack. Then, it's just a matter of executing the stack. Here's a quick example:

``````\$math = new Math();

\$answer = \$math->evaluate('(2 + 3) * 4');
// int(20)

\$answer = \$math->evaluate('1 + 2 * ((3 + 4) * 5 + 6)');
// int(83)

\$answer = \$math->evaluate('(1 + 2) * (3 + 4) * (5 + 6)');
// int(231)

\$math->registerVariable('a', 4);
\$answer = \$math->evaluate('(\$a + 3) * 4');
// int(28)

\$math->registerVariable('a', 5);
\$answer = \$math->evaluate('(\$a + \$a) * 4');
// int(40)
``````

Now, this example is significantly more complex than you may need. The reason is that it also handles grouping and operator precedence. But it's a decent example of a running algorithm that doesn't use EVAL and supports variables...

-
It's perfect for my needs, although it seems to give errors working with variables. Exactly: Fatal error: Uncaught exception 'Exception' with message 'Undefined Value a' in /index.php:122 Stack trace: #0 /index.php(177): TerminalExpression::factory('a') #1 /index.php(167): Math->parse('(\$a + 3) * 4') #2 /index.php(290): Math->evaluate('(\$a + 3) * 4') #3 {main} thrown in /index.php on line 122 –  Giulio Muscarello Oct 2 '12 at 15:48
@GiulioMuscarello: what error is it giving with variables? –  ircmaxell Oct 2 '12 at 15:49
I had problems with line breaks, so i made a few unsuccessful edits. Anyway. It misses one of the key features I need, which is solving step-by-step. I could give a try with explode() using parenthesis, but still it's not the solution. –  Giulio Muscarello Oct 2 '12 at 15:51
@GiulioMuscarello: I fixed the issues with the tokenizer regex. It'll now handle linebreaks and variables correctly. Just replace the last method of the Math class (as that has the corrected regex)... –  ircmaxell Oct 2 '12 at 16:04
This lecture should be mentioned as related material. –  tereško Oct 2 '12 at 16:29

I'd start by stripping the input of anything which shouldn't be in the expression (assuming you just want to allow add, subtract, multiply, divide, and no variables):

`````` \$expr = preg_replace('/[^0-9+*\/-]/', '', \$expr);
``````

and then, once I'm confident nothing dangerous remains in the user input, simply pass the itthrough eval() to evaluate the expression:

`````` \$result = eval("return \$expr;");
``````

No need to reinvent the wheel.

Edited to incorporate Kolink's corrections. Thanks!

-
`eval` doesn't return anything unless there's a `return` statement in it - unlike in JavaScript where the return value is the value of the last expression. Also, don't forget to escape the characters you use as a delimiter. –  Niet the Dark Absol Oct 2 '12 at 15:02
Thanks for the corrections -- I've updated the answer. That'll teach me to answer from my phone while I'm out having a smoke... –  Aaron Miller Oct 2 '12 at 15:13
Well, that's not a great thing to do, since if there's a syntax error (for example, if I did `0 + 1 1` as input) it'll bork the entire system... Better to use a full fledged parser... –  ircmaxell Oct 2 '12 at 15:40

There is a Math Parser class called bcParserPHP that might be of interest.

Seems fairly simple to use and pretty powerful.

Example code from their site:

``````\$parser = new MathParser();
\$parser->setVariable('X', 5);
\$parser->setVariable('Y', 2);
\$parser->setExpression('COS(X)+SIN(Y)/2');
echo \$parser->getValue();
``````

Unfortunately, it's a commercial product; I don't know if that would stop you using it or not (guess it depends on the price and on your needs).

A non-commercial alternative might be this one: http://www.phpclasses.org/package/2695-PHP-Safely-evaluate-mathematical-expressions.html

Note that this class uses `eval()` internally, which I would avoid doing if possible.

Failing that, writing your own language parser would be the ideal solution, but not really sensible to do that in PHP.

-
The use of eval() in evalmath can easily be avoided with a small bit or code reworking to replace it with a whitelisted function set, and the use of call_user_func_array() –  Mark Baker Oct 2 '12 at 19:52