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<?php declare(strict_types=1); /* * This file is part of PHPUnit. * * (c) Sebastian Bergmann <sebastian@phpunit.de> * * For the full copyright and license information, please view the LICENSE * file that was distributed with this source code. */ namespace PHPUnit\Framework\Constraint; use function sprintf; use Countable; use PHPUnit\Framework\ExpectationFailedException; use PHPUnit\Framework\SelfDescribing; use SebastianBergmann\Comparator\ComparisonFailure; use SebastianBergmann\Exporter\Exporter; /** * @no-named-arguments Parameter names are not covered by the backward compatibility promise for PHPUnit */ abstract class Constraint implements Countable, SelfDescribing { /** * @var ?Exporter */ private $exporter; /** * Evaluates the constraint for parameter $other. * * If $returnResult is set to false (the default), an exception is thrown * in case of a failure. null is returned otherwise. * * If $returnResult is true, the result of the evaluation is returned as * a boolean value instead: true in case of success, false in case of a * failure. * * @throws \SebastianBergmann\RecursionContext\InvalidArgumentException * @throws ExpectationFailedException */ public function evaluate($other, string $description = '', bool $returnResult = false): ?bool { $success = false; if ($this->matches($other)) { $success = true; } if ($returnResult) { return $success; } if (!$success) { $this->fail($other, $description); } return null; } /** * Counts the number of constraint elements. */ public function count(): int { return 1; } protected function exporter(): Exporter { if ($this->exporter === null) { $this->exporter = new Exporter; } return $this->exporter; } /** * Evaluates the constraint for parameter $other. Returns true if the * constraint is met, false otherwise. * * This method can be overridden to implement the evaluation algorithm. * * @param mixed $other value or object to evaluate * * @codeCoverageIgnore */ protected function matches($other): bool { return false; } /** * Throws an exception for the given compared value and test description. * * @param mixed $other evaluated value or object * @param string $description Additional information about the test * @param ComparisonFailure $comparisonFailure * * @throws \SebastianBergmann\RecursionContext\InvalidArgumentException * @throws ExpectationFailedException * * @psalm-return never-return */ protected function fail($other, $description, ComparisonFailure $comparisonFailure = null): void { $failureDescription = sprintf( 'Failed asserting that %s.', $this->failureDescription($other) ); $additionalFailureDescription = $this->additionalFailureDescription($other); if ($additionalFailureDescription) { $failureDescription .= "\n" . $additionalFailureDescription; } if (!empty($description)) { $failureDescription = $description . "\n" . $failureDescription; } throw new ExpectationFailedException( $failureDescription, $comparisonFailure ); } /** * Return additional failure description where needed. * * The function can be overridden to provide additional failure * information like a diff * * @param mixed $other evaluated value or object */ protected function additionalFailureDescription($other): string { return ''; } /** * Returns the description of the failure. * * The beginning of failure messages is "Failed asserting that" in most * cases. This method should return the second part of that sentence. * * To provide additional failure information additionalFailureDescription * can be used. * * @param mixed $other evaluated value or object * * @throws \SebastianBergmann\RecursionContext\InvalidArgumentException */ protected function failureDescription($other): string { return $this->exporter()->export($other) . ' ' . $this->toString(); } /** * Returns a custom string representation of the constraint object when it * appears in context of an $operator expression. * * The purpose of this method is to provide meaningful descriptive string * in context of operators such as LogicalNot. Native PHPUnit constraints * are supported out of the box by LogicalNot, but externally developed * ones had no way to provide correct strings in this context. * * The method shall return empty string, when it does not handle * customization by itself. * * @param Operator $operator the $operator of the expression * @param mixed $role role of $this constraint in the $operator expression */ protected function toStringInContext(Operator $operator, $role): string { return ''; } /** * Returns the description of the failure when this constraint appears in * context of an $operator expression. * * The purpose of this method is to provide meaningful failure description * in context of operators such as LogicalNot. Native PHPUnit constraints * are supported out of the box by LogicalNot, but externally developed * ones had no way to provide correct messages in this context. * * The method shall return empty string, when it does not handle * customization by itself. * * @param Operator $operator the $operator of the expression * @param mixed $role role of $this constraint in the $operator expression * @param mixed $other evaluated value or object */ protected function failureDescriptionInContext(Operator $operator, $role, $other): string { $string = $this->toStringInContext($operator, $role); if ($string === '') { return ''; } return $this->exporter()->export($other) . ' ' . $string; } /** * Reduces the sub-expression starting at $this by skipping degenerate * sub-expression and returns first descendant constraint that starts * a non-reducible sub-expression. * * Returns $this for terminal constraints and for operators that start * non-reducible sub-expression, or the nearest descendant of $this that * starts a non-reducible sub-expression. * * A constraint expression may be modelled as a tree with non-terminal * nodes (operators) and terminal nodes. For example: * * LogicalOr (operator, non-terminal) * + LogicalAnd (operator, non-terminal) * | + IsType('int') (terminal) * | + GreaterThan(10) (terminal) * + LogicalNot (operator, non-terminal) * + IsType('array') (terminal) * * A degenerate sub-expression is a part of the tree, that effectively does * not contribute to the evaluation of the expression it appears in. An example * of degenerate sub-expression is a BinaryOperator constructed with single * operand or nested BinaryOperators, each with single operand. An * expression involving a degenerate sub-expression is equivalent to a * reduced expression with the degenerate sub-expression removed, for example * * LogicalAnd (operator) * + LogicalOr (degenerate operator) * | + LogicalAnd (degenerate operator) * | + IsType('int') (terminal) * + GreaterThan(10) (terminal) * * is equivalent to * * LogicalAnd (operator) * + IsType('int') (terminal) * + GreaterThan(10) (terminal) * * because the subexpression * * + LogicalOr * + LogicalAnd * + - * * is degenerate. Calling reduce() on the LogicalOr object above, as well * as on LogicalAnd, shall return the IsType('int') instance. * * Other specific reductions can be implemented, for example cascade of * LogicalNot operators * * + LogicalNot * + LogicalNot * +LogicalNot * + IsTrue * * can be reduced to * * LogicalNot * + IsTrue */ protected function reduce(): self { return $this; } }