<?php declare(strict_types=1);
namespace PhpParser;
use PhpParser\Node\Expr;
use PhpParser\Node\Scalar;
use function array_merge;
/**
* Evaluates constant expressions.
*
* This evaluator is able to evaluate all constant expressions (as defined by PHP), which can be
* evaluated without further context. If a subexpression is not of this type, a user-provided
* fallback evaluator is invoked. To support all constant expressions that are also supported by
* PHP (and not already handled by this class), the fallback evaluator must be able to handle the
* following node types:
*
* * All Scalar\MagicConst\* nodes.
* * Expr\ConstFetch nodes. Only null/false/true are already handled by this class.
* * Expr\ClassConstFetch nodes.
*
* The fallback evaluator should throw ConstExprEvaluationException for nodes it cannot evaluate.
*
* The evaluation is dependent on runtime configuration in two respects: Firstly, floating
* point to string conversions are affected by the precision ini setting. Secondly, they are also
* affected by the LC_NUMERIC locale.
*/
class ConstExprEvaluator {
/** @var callable|null */
private $fallbackEvaluator;
/**
* Create a constant expression evaluator.
*
* The provided fallback evaluator is invoked whenever a subexpression cannot be evaluated. See
* class doc comment for more information.
*
* @param callable|null $fallbackEvaluator To call if subexpression cannot be evaluated
*/
public function __construct(?callable $fallbackEvaluator = null) {
$this->fallbackEvaluator = $fallbackEvaluator ?? function (Expr $expr) {
throw new ConstExprEvaluationException(
"Expression of type {$expr->getType()} cannot be evaluated"
);
};
}
/**
* Silently evaluates a constant expression into a PHP value.
*
* Thrown Errors, warnings or notices will be converted into a ConstExprEvaluationException.
* The original source of the exception is available through getPrevious().
*
* If some part of the expression cannot be evaluated, the fallback evaluator passed to the
* constructor will be invoked. By default, if no fallback is provided, an exception of type
* ConstExprEvaluationException is thrown.
*
* See class doc comment for caveats and limitations.
*
* @param Expr $expr Constant expression to evaluate
* @return mixed Result of evaluation
*
* @throws ConstExprEvaluationException if the expression cannot be evaluated or an error occurred
*/
public function evaluateSilently(Expr $expr) {
set_error_handler(function ($num, $str, $file, $line) {
throw new \ErrorException($str, 0, $num, $file, $line);
});
try {
return $this->evaluate($expr);
} catch (\Throwable $e) {
if (!$e instanceof ConstExprEvaluationException) {
$e = new ConstExprEvaluationException(
"An error occurred during constant expression evaluation", 0, $e);
}
throw $e;
} finally {
restore_error_handler();
}
}
/**
* Directly evaluates a constant expression into a PHP value.
*
* May generate Error exceptions, warnings or notices. Use evaluateSilently() to convert these
* into a ConstExprEvaluationException.
*
* If some part of the expression cannot be evaluated, the fallback evaluator passed to the
* constructor will be invoked. By default, if no fallback is provided, an exception of type
* ConstExprEvaluationException is thrown.
*
* See class doc comment for caveats and limitations.
*
* @param Expr $expr Constant expression to evaluate
* @return mixed Result of evaluation
*
* @throws ConstExprEvaluationException if the expression cannot be evaluated
*/
public function evaluateDirectly(Expr $expr) {
return $this->evaluate($expr);
}
/** @return mixed */
private function evaluate(Expr $expr) {
if ($expr instanceof Scalar\Int_
|| $expr instanceof Scalar\Float_
|| $expr instanceof Scalar\String_
) {
return $expr->value;
}
if ($expr instanceof Expr\Array_) {
return $this->evaluateArray($expr);
}
// Unary operators
if ($expr instanceof Expr\UnaryPlus) {
return +$this->evaluate($expr->expr);
}
if ($expr instanceof Expr\UnaryMinus) {
return -$this->evaluate($expr->expr);
}
if ($expr instanceof Expr\BooleanNot) {
return !$this->evaluate($expr->expr);
}
if ($expr instanceof Expr\BitwiseNot) {
return ~$this->evaluate($expr->expr);
}
if ($expr instanceof Expr\BinaryOp) {
return $this->evaluateBinaryOp($expr);
}
if ($expr instanceof Expr\Ternary) {
return $this->evaluateTernary($expr);
}
if ($expr instanceof Expr\ArrayDimFetch && null !== $expr->dim) {
return $this->evaluate($expr->var)[$this->evaluate($expr->dim)];
}
if ($expr instanceof Expr\ConstFetch) {
return $this->evaluateConstFetch($expr);
}
return ($this->fallbackEvaluator)($expr);
}
private function evaluateArray(Expr\Array_ $expr): array {
$array = [];
foreach ($expr->items as $item) {
if (null !== $item->key) {
$array[$this->evaluate($item->key)] = $this->evaluate($item->value);
} elseif ($item->unpack) {
$array = array_merge($array, $this->evaluate($item->value));
} else {
$array[] = $this->evaluate($item->value);
}
}
return $array;
}
/** @return mixed */
private function evaluateTernary(Expr\Ternary $expr) {
if (null === $expr->if) {
return $this->evaluate($expr->cond) ?: $this->evaluate($expr->else);
}
return $this->evaluate($expr->cond)
? $this->evaluate($expr->if)
: $this->evaluate($expr->else);
}
/** @return mixed */
private function evaluateBinaryOp(Expr\BinaryOp $expr) {
if ($expr instanceof Expr\BinaryOp\Coalesce
&& $expr->left instanceof Expr\ArrayDimFetch
) {
// This needs to be special cased to respect BP_VAR_IS fetch semantics
return $this->evaluate($expr->left->var)[$this->evaluate($expr->left->dim)]
?? $this->evaluate($expr->right);
}
// The evaluate() calls are repeated in each branch, because some of the operators are
// short-circuiting and evaluating the RHS in advance may be illegal in that case
$l = $expr->left;
$r = $expr->right;
switch ($expr->getOperatorSigil()) {
case '&': return $this->evaluate($l) & $this->evaluate($r);
case '|': return $this->evaluate($l) | $this->evaluate($r);
case '^': return $this->evaluate($l) ^ $this->evaluate($r);
case '&&': return $this->evaluate($l) && $this->evaluate($r);
case '||': return $this->evaluate($l) || $this->evaluate($r);
case '??': return $this->evaluate($l) ?? $this->evaluate($r);
case '.': return $this->evaluate($l) . $this->evaluate($r);
case '/': return $this->evaluate($l) / $this->evaluate($r);
case '==': return $this->evaluate($l) == $this->evaluate($r);
case '>': return $this->evaluate($l) > $this->evaluate($r);
case '>=': return $this->evaluate($l) >= $this->evaluate($r);
case '===': return $this->evaluate($l) === $this->evaluate($r);
case 'and': return $this->evaluate($l) and $this->evaluate($r);
case 'or': return $this->evaluate($l) or $this->evaluate($r);
case 'xor': return $this->evaluate($l) xor $this->evaluate($r);
case '-': return $this->evaluate($l) - $this->evaluate($r);
case '%': return $this->evaluate($l) % $this->evaluate($r);
case '*': return $this->evaluate($l) * $this->evaluate($r);
case '!=': return $this->evaluate($l) != $this->evaluate($r);
case '!==': return $this->evaluate($l) !== $this->evaluate($r);
case '+': return $this->evaluate($l) + $this->evaluate($r);
case '**': return $this->evaluate($l) ** $this->evaluate($r);
case '<<': return $this->evaluate($l) << $this->evaluate($r);
case '>>': return $this->evaluate($l) >> $this->evaluate($r);
case '<': return $this->evaluate($l) < $this->evaluate($r);
case '<=': return $this->evaluate($l) <= $this->evaluate($r);
case '<=>': return $this->evaluate($l) <=> $this->evaluate($r);
}
throw new \Exception('Should not happen');
}
/** @return mixed */
private function evaluateConstFetch(Expr\ConstFetch $expr) {
$name = $expr->name->toLowerString();
switch ($name) {
case 'null': return null;
case 'false': return false;
case 'true': return true;
}
return ($this->fallbackEvaluator)($expr);
}
}
At NFC Pay, your privacy is of utmost importance to us. This Privacy Policy outlines how we collect, use, share, and protect your personal information when you use our services, including our website and mobile applications.
1. Information We Collect
2. How We Use Your Information
We use the information we collect for the following purposes:
3. Sharing Your Information
We may share your personal information in the following circumstances:
4. Security of Your Information
We take the security of your personal information seriously and implement a variety of security measures, including encryption, secure servers, and access controls, to protect your data from unauthorized access, disclosure, alteration, or destruction. However, no method of transmission over the internet or electronic storage is completely secure, and we cannot guarantee its absolute security.
5. Your Privacy Rights
Depending on your location, you may have certain rights regarding your personal information, such as:
6. Third-Party Links
Our services may contain links to third-party websites or services. We are not responsible for the privacy practices or the content of these third-party sites. We encourage you to review the privacy policies of those third parties.
7. Children’s Privacy
Our services are not intended for individuals under the age of 13. We do not knowingly collect personal information from children under 13. If we become aware that we have collected personal information from a child under 13, we will take steps to delete that information.
8. Changes to This Privacy Policy
We may update this Privacy Policy from time to time to reflect changes in our practices or for other operational, legal, or regulatory reasons. We will notify you of any significant changes by posting the new Privacy Policy on our website and updating the effective date.
9. Contact Us
If you have any questions or concerns about this Privacy Policy or our data practices, please contact us at:
Email: support@nfcpay.com