DocBlockTypeResolver - Code Metrics - Inspection of "feat(driver): TypedPropertiesDriver support virtua..." - schmittjoh/serializer - Measure and Improve Code Quality continuously with Scrutinizer

Passed

Pull Request — master (#1487)

by Martin Poirier

created 2023-05-14 19:15 UTC

DocBlockTypeResolver F

↳ Parent: Project

Complexity

Total Complexity

Size/Duplication

Total Lines	413
Duplicated Lines	0 %

Importance

Changes	3
Bugs	1	Features	0

Metric	Value
eloc	144
c	3
b	1
f	0
dl	0
loc	413
rs	2.8
wmc	70

21 Methods

Rating	Name	Size	Complexity
A	resolveType()	7	3
B	getDocBlocTypeHint()	52	9
A	hasGlobalNamespacePrefix()	3	1
B	getPhpstanType()	29	8
B	resolveTypeFromDocblock()	40	9
A	resolveTypeFromTypeNode()	7	2
A	isPrimitiveType()	3	1
A	flattenParamTagValueTypes()	17	4
A	filterNullFromTypes()	5	2
A	getMethodDocblockTypeHint()	3	1
A	getPropertyDocblockTypeHint()	3	1
A	isClassOrInterface()	3	2
A	isSimpleType()	3	2
A	endsWith()	5	1
A	getDeclaringClassOrTrait()	11	4
A	isNullType()	3	1
A	gatherGroupUseStatements()	11	3
B	expandClassNameUsingUseStatements()	36	10
A	gatherSingleUseStatements()	9	2
A	__construct()	7	1
A	flattenTagValueTypes()	13	3

How to fix Complexity

<?php

declare(strict_types=1);

namespace JMS\Serializer\Metadata\Driver\DocBlockDriver;

use PHPStan\PhpDocParser\Ast\PhpDoc\ParamTagValueNode;
use PHPStan\PhpDocParser\Ast\PhpDoc\PhpDocTagNode;
use PHPStan\PhpDocParser\Ast\PhpDoc\ReturnTagValueNode;
use PHPStan\PhpDocParser\Ast\PhpDoc\VarTagValueNode;
use PHPStan\PhpDocParser\Ast\Type\ArrayTypeNode;
use PHPStan\PhpDocParser\Ast\Type\GenericTypeNode;
use PHPStan\PhpDocParser\Ast\Type\IdentifierTypeNode;
use PHPStan\PhpDocParser\Ast\Type\TypeNode;
use PHPStan\PhpDocParser\Ast\Type\UnionTypeNode;
use PHPStan\PhpDocParser\Lexer\Lexer;
use PHPStan\PhpDocParser\Parser\ConstExprParser;
use PHPStan\PhpDocParser\Parser\PhpDocParser;
use PHPStan\PhpDocParser\Parser\TokenIterator;
use PHPStan\PhpDocParser\Parser\TypeParser;

/**
 * @internal
 */
final class DocBlockTypeResolver
{
    /** resolve single use statements */
    private const SINGLE_USE_STATEMENTS_REGEX = '/^[^\S\r\n]*use[\s]*([^;\n]*)[\s]*;$/m';
    /** resolve group use statements */
    private const GROUP_USE_STATEMENTS_REGEX = '/^[^\S\r\n]*use[[\s]*([^;\n]*)[\s]*{([a-zA-Z0-9\s\n\r,]*)};$/m';
    private const GLOBAL_NAMESPACE_PREFIX = '\\';
    private const PHPSTAN_ARRAY_SHAPE = '/^([^\s]*) array{.*/m';
    private const PHPSTAN_ARRAY_TYPE = '/^([^\s]*) array<(.*)>/m';

    /**
     * @var PhpDocParser
     */
    protected $phpDocParser;

    /**
     * @var Lexer
     */
    protected $lexer;

    public function __construct()
    {
        $constExprParser = new ConstExprParser();
        $typeParser = new TypeParser($constExprParser);

        $this->phpDocParser = new PhpDocParser($typeParser, $constExprParser);
        $this->lexer = new Lexer();
    }

    /**
     * Attempts to retrieve additional type information from a PhpDoc block. Throws in case of ambiguous type
     * information and will return null if no helpful type information could be retrieved.
     *
     * @param \ReflectionMethod $reflectionMethod
     *
     * @return string|null
     */
    public function getMethodDocblockTypeHint(\ReflectionMethod $reflectionMethod): ?string
    {
        return $this->getDocBlocTypeHint($reflectionMethod);
    }

    /**
     * Attempts to retrieve additional type information from a PhpDoc block. Throws in case of ambiguous type
     * information and will return null if no helpful type information could be retrieved.
     *
     * @param \ReflectionProperty $reflectionProperty
     *
     * @return string|null
     */
    public function getPropertyDocblockTypeHint(\ReflectionProperty $reflectionProperty): ?string
    {
        return $this->getDocBlocTypeHint($reflectionProperty);
    }

    /**
     * @param \ReflectionMethod|\ReflectionProperty $reflector
     *
     * @return string|null
     */
    private function getDocBlocTypeHint($reflector): ?string
    {
        $types = $this->resolveTypeFromDocblock($reflector);

        // The PhpDoc does not contain additional type information.
        if (0 === count($types)) {
            return null;
        }

        // The PhpDoc contains multiple non-null types which produces ambiguity when deserializing.
        if (count($types) > 1) {
            return null;
        }

        // Only one type is left, so we only need to differentiate between arrays, generics and other types.
        $type = $types[0];

        // Simple array without concrete type: array
        if ($this->isSimpleType($type, 'array') || $this->isSimpleType($type, 'list')) {
            return null;
        }

        // Normal array syntax: Product[] | \Foo\Bar\Product[]
        if ($type instanceof ArrayTypeNode) {
            $resolvedType = $this->resolveTypeFromTypeNode($type->type, $reflector);

            return 'array<' . $resolvedType . '>';
        }

        // Generic array syntax: array<Product> | array<\Foo\Bar\Product> | array<int,Product>
        if ($type instanceof GenericTypeNode) {
            if ($this->isSimpleType($type->type, 'array')) {
                $resolvedTypes = array_map(function (TypeNode $node) use ($reflector) {
                    return $this->resolveTypeFromTypeNode($node, $reflector);
                }, $type->genericTypes);

                return 'array<' . implode(',', $resolvedTypes) . '>';
            }

            if ($this->isSimpleType($type->type, 'list')) {
                $resolvedTypes = array_map(function (TypeNode $node) use ($reflector) {
                    return $this->resolveTypeFromTypeNode($node, $reflector);
                }, $type->genericTypes);

                return 'array<int, ' . implode(',', $resolvedTypes) . '>';
            }

            throw new \InvalidArgumentException(sprintf("Can't use non-array generic type %s for collection in %s:%s", (string) $type->type, $reflector->getDeclaringClass()->getName(), $reflector->getName()));
        }

        // Primitives and class names: Collection | \Foo\Bar\Product | string
        return $this->resolveTypeFromTypeNode($type, $reflector);
    }

    /**
     * Returns a flat list of types of the given var tags. Union types are flattened as well.
     *
     * @param ReturnTagValueNode[]|VarTagValueNode[] $tagValues
     *
     * @return TypeNode[]
     */
    private function flattenTagValueTypes(array $tagValues): array
    {
        if ([] === $tagValues) {
            return [];
        }

        return array_merge(...array_map(static function ($node) {
            if ($node->type instanceof UnionTypeNode) {
                return $node->type->types;
            }

            return [$node->type];
        }, $tagValues));
    }

    /**
     * Returns a flat list of types of the given param tags. Union types are flattened as well.
     *
     * @param ParamTagValueNode[] $varTagValues
     *
     * @return TypeNode[]
     */
    private function flattenParamTagValueTypes(string $parameterName, array $varTagValues): array
    {
        if ([] === $varTagValues) {
            return [];
        }

        $parameterName = sprintf('$%s', $parameterName);
        $types = [];
        foreach ($varTagValues as $node) {
            if ($parameterName !== $node->parameterName) {
                continue;
            }

            $types[] = $node->type;
        }

        return $types;
    }

    /**
     * Filters the null type from the given types array. If no null type is found, the array is returned unchanged.
     *
     * @param TypeNode[] $types
     *
     * @return TypeNode[]
     */
    private function filterNullFromTypes(array $types): array
    {
        return array_values(array_filter(array_map(function (TypeNode $node) {
            return $this->isNullType($node) ? null : $node;
        }, $types)));
    }

    /**
     * Determines if the given type is a null type.
     *
     * @param TypeNode $typeNode
     *
     * @return bool
     */
    private function isNullType(TypeNode $typeNode): bool
    {
        return $this->isSimpleType($typeNode, 'null');
    }

    /**
     * Determines if the given node represents a simple type.
     *
     * @param TypeNode $typeNode
     * @param string $simpleType
     *
     * @return bool
     */
    private function isSimpleType(TypeNode $typeNode, string $simpleType): bool
    {
        return $typeNode instanceof IdentifierTypeNode && $typeNode->name === $simpleType;
    }

    /**
     * Attempts to resolve the fully qualified type from the given node. If the node is not suitable for type
     * retrieval, an exception is thrown.
     *
     * @param TypeNode $typeNode
     * @param \ReflectionMethod|\ReflectionProperty $reflector
     *
     * @return string
     *
     * @throws \InvalidArgumentException
     */
    private function resolveTypeFromTypeNode(TypeNode $typeNode, $reflector): string
    {
        if (!($typeNode instanceof IdentifierTypeNode)) {
            throw new \InvalidArgumentException(sprintf("Can't use unsupported type %s for collection in %s:%s", (string) $typeNode, $reflector->getDeclaringClass()->getName(), $reflector->getName()));
        }

        return $this->resolveType($typeNode->name, $reflector);
    }

    /**
     * @param \ReflectionMethod|\ReflectionProperty $reflector
     */
    private function expandClassNameUsingUseStatements(string $typeHint, \ReflectionClass $declaringClass, $reflector): string
    {
        if ($this->isClassOrInterface($typeHint)) {
            return $typeHint;
        }

        $expandedClassName = $declaringClass->getNamespaceName() . '\\' . $typeHint;
        if ($this->isClassOrInterface($expandedClassName)) {
            return $expandedClassName;
        }

        $classContents = file_get_contents($declaringClass->getFileName());
        $foundUseStatements = $this->gatherGroupUseStatements($classContents);
        $foundUseStatements = array_merge($this->gatherSingleUseStatements($classContents), $foundUseStatements);

        foreach ($foundUseStatements as $statementClassName) {
            if ($alias = explode('as', $statementClassName)) {
                if (array_key_exists(1, $alias) && trim($alias[1]) === $typeHint) {
                    return trim($alias[0]);
                }
            }

            if ($this->endsWith($statementClassName, $typeHint)) {
                return $statementClassName;
            }
        }

        if ($declaringClass->getDocComment()) {
            $phpstanArrayType = $this->getPhpstanType($declaringClass, $typeHint, $reflector);

            if ($phpstanArrayType) {
                return $phpstanArrayType;
            }
        }

        throw new \InvalidArgumentException(sprintf("Can't use incorrect type %s for collection in %s:%s", $typeHint, $declaringClass->getName(), $reflector->getName()));
    }

    private function endsWith(string $statementClassToCheck, string $typeHintToSearchFor): bool
    {
        $typeHintToSearchFor = '\\' . $typeHintToSearchFor;

        return substr($statementClassToCheck, -strlen($typeHintToSearchFor)) === $typeHintToSearchFor;
    }

    private function isPrimitiveType(string $type): bool
    {
        return in_array($type, ['int', 'float', 'bool', 'string']);
    }

    private function hasGlobalNamespacePrefix(string $typeHint): bool
    {
        return self::GLOBAL_NAMESPACE_PREFIX === $typeHint[0];
    }

    private function gatherGroupUseStatements(string $classContents): array
    {
        $foundUseStatements = [];
        preg_match_all(self::GROUP_USE_STATEMENTS_REGEX, $classContents, $foundGroupUseStatements);
        for ($useStatementIndex = 0; $useStatementIndex < count($foundGroupUseStatements[0]); $useStatementIndex++) {
for ($i=0; $i<count($array); $i++) { // calls count() on each iteration
}

// Better
for ($i=0, $c=count($array); $i<$c; $i++) { // calls count() just once
}
            foreach (explode(',', $foundGroupUseStatements[2][$useStatementIndex]) as $singleUseStatement) {
                $foundUseStatements[] = trim($foundGroupUseStatements[1][$useStatementIndex]) . trim($singleUseStatement);
            }
        }

        return $foundUseStatements;
    }

    private function gatherSingleUseStatements(string $classContents): array
    {
        $foundUseStatements = [];
        preg_match_all(self::SINGLE_USE_STATEMENTS_REGEX, $classContents, $foundSingleUseStatements);
        for ($useStatementIndex = 0; $useStatementIndex < count($foundSingleUseStatements[0]); $useStatementIndex++) {
for ($i=0; $i<count($array); $i++) { // calls count() on each iteration
}

// Better
for ($i=0, $c=count($array); $i<$c; $i++) { // calls count() just once
}
            $foundUseStatements[] = trim($foundSingleUseStatements[1][$useStatementIndex]);
        }

        return $foundUseStatements;
    }

    /**
     * @param \ReflectionMethod|\ReflectionProperty $reflector
     */
    private function getDeclaringClassOrTrait($reflector): \ReflectionClass
    {
        foreach ($reflector->getDeclaringClass()->getTraits() as $trait) {
            foreach ($trait->getProperties() as $traitProperty) {
                if ($traitProperty->getName() === $reflector->getName()) {
                    return $this->getDeclaringClassOrTrait($traitProperty);
                }
            }
        }

        return $reflector->getDeclaringClass();
    }

    /**
     * @param \ReflectionMethod|\ReflectionProperty $reflector
     */
    private function resolveType(string $typeHint, $reflector): string
    {
        if (!$this->hasGlobalNamespacePrefix($typeHint) && !$this->isPrimitiveType($typeHint)) {
            $typeHint = $this->expandClassNameUsingUseStatements($typeHint, $this->getDeclaringClassOrTrait($reflector), $reflector);
        }

        return ltrim($typeHint, '\\');
    }

    private function isClassOrInterface(string $typeHint): bool
    {
        return class_exists($typeHint) || interface_exists($typeHint);
    }

    /**
     * @param \ReflectionMethod|\ReflectionProperty $reflector
     */
    private function resolveTypeFromDocblock($reflector): array
    {
        $docComment = $reflector->getDocComment();
        if (!$docComment && PHP_VERSION_ID >= 80000 && $reflector instanceof \ReflectionProperty && $reflector->isPromoted()) {
            $constructor = $reflector->getDeclaringClass()->getConstructor();
            if (!$constructor) {
                return [];
            }

            $docComment = $constructor->getDocComment();

            if (!$docComment) {
                return [];
            }

            $tokens = $this->lexer->tokenize($docComment);
            $phpDocNode = $this->phpDocParser->parse(new TokenIterator($tokens));

            return $this->flattenParamTagValueTypes($reflector->getName(), $phpDocNode->getParamTagValues());
        }

        if (!$docComment) {
            return [];
        }

        // First we tokenize the PhpDoc comment and parse the tokens into a PhpDocNode.
        $tokens = $this->lexer->tokenize($docComment);
        $phpDocNode = $this->phpDocParser->parse(new TokenIterator($tokens));

        if ($reflector instanceof \ReflectionProperty) {
            // Then we retrieve a flattened list of annotated types excluding null.
            $tagValues = $phpDocNode->getVarTagValues();
        } else {
            // Then we retrieve a flattened list of annotated types including null.
            $tagValues = $phpDocNode->getReturnTagValues();
        }

        $types = $this->flattenTagValueTypes($tagValues);

        return $this->filterNullFromTypes($types);
    }

    /**
     * @param \ReflectionMethod|\ReflectionProperty $reflector
     */
    private function getPhpstanType(\ReflectionClass $declaringClass, string $typeHint, $reflector): ?string
    {
        $tokens = $this->lexer->tokenize($declaringClass->getDocComment());
        $phpDocNode = $this->phpDocParser->parse(new TokenIterator($tokens));
        $self = $this;

        foreach ($phpDocNode->children as $node) {
            if ($node instanceof PhpDocTagNode && '@phpstan-type' === $node->name) {
                $phpstanType = (string) $node->value;
                preg_match_all(self::PHPSTAN_ARRAY_SHAPE, $phpstanType, $foundPhpstanArray);
                if (isset($foundPhpstanArray[1][0]) && $foundPhpstanArray[1][0] === $typeHint) {
                    return 'array';
                }

                preg_match_all(self::PHPSTAN_ARRAY_TYPE, $phpstanType, $foundPhpstanArray);
                if (isset($foundPhpstanArray[2][0]) && $foundPhpstanArray[1][0] === $typeHint) {
                    $types = explode(',', $foundPhpstanArray[2][0]);

                    return sprintf('array<%s>', implode(
                        ',',
                        array_map(static function (string $type) use ($reflector, $self) {
                            return $self->resolveType(trim($type), $reflector);
                        }, $types)
                    ));
                }
            }
        }

        return null;
    }
}


1			<?php
2
3			declare(strict_types=1);
4
5			namespace JMS\Serializer\Metadata\Driver\DocBlockDriver;
6
7			use PHPStan\PhpDocParser\Ast\PhpDoc\ParamTagValueNode;
8			use PHPStan\PhpDocParser\Ast\PhpDoc\PhpDocTagNode;
9			use PHPStan\PhpDocParser\Ast\PhpDoc\ReturnTagValueNode;
10			use PHPStan\PhpDocParser\Ast\PhpDoc\VarTagValueNode;
11			use PHPStan\PhpDocParser\Ast\Type\ArrayTypeNode;
12			use PHPStan\PhpDocParser\Ast\Type\GenericTypeNode;
13			use PHPStan\PhpDocParser\Ast\Type\IdentifierTypeNode;
14			use PHPStan\PhpDocParser\Ast\Type\TypeNode;
15			use PHPStan\PhpDocParser\Ast\Type\UnionTypeNode;
16			use PHPStan\PhpDocParser\Lexer\Lexer;
17			use PHPStan\PhpDocParser\Parser\ConstExprParser;
18			use PHPStan\PhpDocParser\Parser\PhpDocParser;
19			use PHPStan\PhpDocParser\Parser\TokenIterator;
20			use PHPStan\PhpDocParser\Parser\TypeParser;
21
22			/**
23			* @internal
24			*/
25			final class DocBlockTypeResolver
26			{
27			/** resolve single use statements */
28			private const SINGLE_USE_STATEMENTS_REGEX = '/^[^\S\r\n]use[\s]([^;\n])[\s];$/m';
29			/** resolve group use statements */
30			private const GROUP_USE_STATEMENTS_REGEX = '/^[^\S\r\n]use[[\s]([^;\n])[\s]{([a-zA-Z0-9\s\n\r,]*)};$/m';
31			private const GLOBAL_NAMESPACE_PREFIX = '\\';
32			private const PHPSTAN_ARRAY_SHAPE = '/^([^\s]) array{./m';
33			private const PHPSTAN_ARRAY_TYPE = '/^([^\s]) array<(.)>/m';
34
35			/**
36			* @var PhpDocParser
37			*/
38			protected $phpDocParser;
39
40			/**
41			* @var Lexer
42			*/
43			protected $lexer;
44
45			public function __construct()
46			{
47			$constExprParser = new ConstExprParser();
48			$typeParser = new TypeParser($constExprParser);
49
50			$this->phpDocParser = new PhpDocParser($typeParser, $constExprParser);
51			$this->lexer = new Lexer();
52			}
53
54			/**
55			* Attempts to retrieve additional type information from a PhpDoc block. Throws in case of ambiguous type
56			* information and will return null if no helpful type information could be retrieved.
57			*
58			* @param \ReflectionMethod $reflectionMethod
59			*
60			* @return string\|null
61			*/
62			public function getMethodDocblockTypeHint(\ReflectionMethod $reflectionMethod): ?string
63			{
64			return $this->getDocBlocTypeHint($reflectionMethod);
65			}
66
67			/**
68			* Attempts to retrieve additional type information from a PhpDoc block. Throws in case of ambiguous type
69			* information and will return null if no helpful type information could be retrieved.
70			*
71			* @param \ReflectionProperty $reflectionProperty
72			*
73			* @return string\|null
74			*/
75			public function getPropertyDocblockTypeHint(\ReflectionProperty $reflectionProperty): ?string
76			{
77			return $this->getDocBlocTypeHint($reflectionProperty);
78			}
79
80			/**
81			* @param \ReflectionMethod\|\ReflectionProperty $reflector
82			*
83			* @return string\|null
84			*/
85			private function getDocBlocTypeHint($reflector): ?string
86			{
87			$types = $this->resolveTypeFromDocblock($reflector);
88
89			// The PhpDoc does not contain additional type information.
90			if (0 === count($types)) {
91			return null;
92			}
93
94			// The PhpDoc contains multiple non-null types which produces ambiguity when deserializing.
95			if (count($types) > 1) {
96			return null;
97			}
98
99			// Only one type is left, so we only need to differentiate between arrays, generics and other types.
100			$type = $types[0];
101
102			// Simple array without concrete type: array
103			if ($this->isSimpleType($type, 'array') \|\| $this->isSimpleType($type, 'list')) {
104			return null;
105			}
106
107			// Normal array syntax: Product[] \| \Foo\Bar\Product[]
108			if ($type instanceof ArrayTypeNode) {
109			$resolvedType = $this->resolveTypeFromTypeNode($type->type, $reflector);
110
111			return 'array<' . $resolvedType . '>';
112			}
113
114			// Generic array syntax: array<Product> \| array<\Foo\Bar\Product> \| array<int,Product>
115			if ($type instanceof GenericTypeNode) {
116			if ($this->isSimpleType($type->type, 'array')) {
117			$resolvedTypes = array_map(function (TypeNode $node) use ($reflector) {
118			return $this->resolveTypeFromTypeNode($node, $reflector);
119			}, $type->genericTypes);
120
121			return 'array<' . implode(',', $resolvedTypes) . '>';
122			}
123
124			if ($this->isSimpleType($type->type, 'list')) {
125			$resolvedTypes = array_map(function (TypeNode $node) use ($reflector) {
126			return $this->resolveTypeFromTypeNode($node, $reflector);
127			}, $type->genericTypes);
128
129			return 'array<int, ' . implode(',', $resolvedTypes) . '>';
130			}
131
132			throw new \InvalidArgumentException(sprintf("Can't use non-array generic type %s for collection in %s:%s", (string) $type->type, $reflector->getDeclaringClass()->getName(), $reflector->getName()));
133			}
134
135			// Primitives and class names: Collection \| \Foo\Bar\Product \| string
136			return $this->resolveTypeFromTypeNode($type, $reflector);
137			}
138
139			/**
140			* Returns a flat list of types of the given var tags. Union types are flattened as well.
141			*
142			* @param ReturnTagValueNode[]\|VarTagValueNode[] $tagValues
143			*
144			* @return TypeNode[]
145			*/
146			private function flattenTagValueTypes(array $tagValues): array
147			{
148			if ([] === $tagValues) {
149			return [];
150			}
151
152			return array_merge(...array_map(static function ($node) {
153			if ($node->type instanceof UnionTypeNode) {
154			return $node->type->types;
155			}
156
157			return [$node->type];
158			}, $tagValues));
159			}
160
161			/**
162			* Returns a flat list of types of the given param tags. Union types are flattened as well.
163			*
164			* @param ParamTagValueNode[] $varTagValues
165			*
166			* @return TypeNode[]
167			*/
168			private function flattenParamTagValueTypes(string $parameterName, array $varTagValues): array
169			{
170			if ([] === $varTagValues) {
171			return [];
172			}
173
174			$parameterName = sprintf('$%s', $parameterName);
175			$types = [];
176			foreach ($varTagValues as $node) {
177			if ($parameterName !== $node->parameterName) {
178			continue;
179			}
180
181			$types[] = $node->type;
182			}
183
184			return $types;
185			}
186
187			/**
188			* Filters the null type from the given types array. If no null type is found, the array is returned unchanged.
189			*
190			* @param TypeNode[] $types
191			*
192			* @return TypeNode[]
193			*/
194			private function filterNullFromTypes(array $types): array
195			{
196			return array_values(array_filter(array_map(function (TypeNode $node) {
197			return $this->isNullType($node) ? null : $node;
198			}, $types)));
199			}
200
201			/**
202			* Determines if the given type is a null type.
203			*
204			* @param TypeNode $typeNode
205			*
206			* @return bool
207			*/
208			private function isNullType(TypeNode $typeNode): bool
209			{
210			return $this->isSimpleType($typeNode, 'null');
211			}
212
213			/**
214			* Determines if the given node represents a simple type.
215			*
216			* @param TypeNode $typeNode
217			* @param string $simpleType
218			*
219			* @return bool
220			*/
221			private function isSimpleType(TypeNode $typeNode, string $simpleType): bool
222			{
223			return $typeNode instanceof IdentifierTypeNode && $typeNode->name === $simpleType;
224			}
225
226			/**
227			* Attempts to resolve the fully qualified type from the given node. If the node is not suitable for type
228			* retrieval, an exception is thrown.
229			*
230			* @param TypeNode $typeNode
231			* @param \ReflectionMethod\|\ReflectionProperty $reflector
232			*
233			* @return string
234			*
235			* @throws \InvalidArgumentException
236			*/
237			private function resolveTypeFromTypeNode(TypeNode $typeNode, $reflector): string
238			{
239			if (!($typeNode instanceof IdentifierTypeNode)) {
240			throw new \InvalidArgumentException(sprintf("Can't use unsupported type %s for collection in %s:%s", (string) $typeNode, $reflector->getDeclaringClass()->getName(), $reflector->getName()));
241			}
242
243			return $this->resolveType($typeNode->name, $reflector);
244			}
245
246			/**
247			* @param \ReflectionMethod\|\ReflectionProperty $reflector
248			*/
249			private function expandClassNameUsingUseStatements(string $typeHint, \ReflectionClass $declaringClass, $reflector): string
250			{
251			if ($this->isClassOrInterface($typeHint)) {
252			return $typeHint;
253			}
254
255			$expandedClassName = $declaringClass->getNamespaceName() . '\\' . $typeHint;
256			if ($this->isClassOrInterface($expandedClassName)) {
257			return $expandedClassName;
258			}
259
260			$classContents = file_get_contents($declaringClass->getFileName());
261			$foundUseStatements = $this->gatherGroupUseStatements($classContents);
262			$foundUseStatements = array_merge($this->gatherSingleUseStatements($classContents), $foundUseStatements);
263
264			foreach ($foundUseStatements as $statementClassName) {
265			if ($alias = explode('as', $statementClassName)) {
266			if (array_key_exists(1, $alias) && trim($alias[1]) === $typeHint) {
267			return trim($alias[0]);
268			}
269			}
270
271			if ($this->endsWith($statementClassName, $typeHint)) {
272			return $statementClassName;
273			}
274			}
275
276			if ($declaringClass->getDocComment()) {
277			$phpstanArrayType = $this->getPhpstanType($declaringClass, $typeHint, $reflector);
278
279			if ($phpstanArrayType) {
280			return $phpstanArrayType;
281			}
282			}
283
284			throw new \InvalidArgumentException(sprintf("Can't use incorrect type %s for collection in %s:%s", $typeHint, $declaringClass->getName(), $reflector->getName()));
285			}
286
287			private function endsWith(string $statementClassToCheck, string $typeHintToSearchFor): bool
288			{
289			$typeHintToSearchFor = '\\' . $typeHintToSearchFor;
290
291			return substr($statementClassToCheck, -strlen($typeHintToSearchFor)) === $typeHintToSearchFor;
292			}
293
294			private function isPrimitiveType(string $type): bool
295			{
296			return in_array($type, ['int', 'float', 'bool', 'string']);
297			}
298
299			private function hasGlobalNamespacePrefix(string $typeHint): bool
300			{
301			return self::GLOBAL_NAMESPACE_PREFIX === $typeHint[0];
302			}
303
304			private function gatherGroupUseStatements(string $classContents): array
305			{
306			$foundUseStatements = [];
307			preg_match_all(self::GROUP_USE_STATEMENTS_REGEX, $classContents, $foundGroupUseStatements);
308			for ($useStatementIndex = 0; $useStatementIndex < count($foundGroupUseStatements[0]); $useStatementIndex++) {
			0 ignored issues – show Performance Best Practice introduced 2020-06-14 15:13 UTC by Report Bug Copy Issue Report It seems like you are calling the size function `count()` as part of the test condition. You might want to compute the size beforehand, and not on each iteration. If the size of the collection does not change during the iteration, it is generally a good practice to compute it beforehand, and not on each iteration: for ($i=0; $i<count($array); $i++) { // calls count() on each iteration } // Better for ($i=0, $c=count($array); $i<$c; $i++) { // calls count() just once } Loading history...
309			foreach (explode(',', $foundGroupUseStatements[2][$useStatementIndex]) as $singleUseStatement) {
310			$foundUseStatements[] = trim($foundGroupUseStatements[1][$useStatementIndex]) . trim($singleUseStatement);
311			}
312			}
313
314			return $foundUseStatements;
315			}
316
317			private function gatherSingleUseStatements(string $classContents): array
318			{
319			$foundUseStatements = [];
320			preg_match_all(self::SINGLE_USE_STATEMENTS_REGEX, $classContents, $foundSingleUseStatements);
321			for ($useStatementIndex = 0; $useStatementIndex < count($foundSingleUseStatements[0]); $useStatementIndex++) {
			0 ignored issues – show Performance Best Practice introduced 2020-06-14 15:13 UTC by Report Bug Copy Issue Report It seems like you are calling the size function `count()` as part of the test condition. You might want to compute the size beforehand, and not on each iteration. If the size of the collection does not change during the iteration, it is generally a good practice to compute it beforehand, and not on each iteration: for ($i=0; $i<count($array); $i++) { // calls count() on each iteration } // Better for ($i=0, $c=count($array); $i<$c; $i++) { // calls count() just once } Loading history...
322			$foundUseStatements[] = trim($foundSingleUseStatements[1][$useStatementIndex]);
323			}
324
325			return $foundUseStatements;
326			}
327
328			/**
329			* @param \ReflectionMethod\|\ReflectionProperty $reflector
330			*/
331			private function getDeclaringClassOrTrait($reflector): \ReflectionClass
332			{
333			foreach ($reflector->getDeclaringClass()->getTraits() as $trait) {
334			foreach ($trait->getProperties() as $traitProperty) {
335			if ($traitProperty->getName() === $reflector->getName()) {
336			return $this->getDeclaringClassOrTrait($traitProperty);
337			}
338			}
339			}
340
341			return $reflector->getDeclaringClass();
342			}
343
344			/**
345			* @param \ReflectionMethod\|\ReflectionProperty $reflector
346			*/
347			private function resolveType(string $typeHint, $reflector): string
348			{
349			if (!$this->hasGlobalNamespacePrefix($typeHint) && !$this->isPrimitiveType($typeHint)) {
350			$typeHint = $this->expandClassNameUsingUseStatements($typeHint, $this->getDeclaringClassOrTrait($reflector), $reflector);
351			}
352
353			return ltrim($typeHint, '\\');
354			}
355
356			private function isClassOrInterface(string $typeHint): bool
357			{
358			return class_exists($typeHint) \|\| interface_exists($typeHint);
359			}
360
361			/**
362			* @param \ReflectionMethod\|\ReflectionProperty $reflector
363			*/
364			private function resolveTypeFromDocblock($reflector): array
365			{
366			$docComment = $reflector->getDocComment();
367			if (!$docComment && PHP_VERSION_ID >= 80000 && $reflector instanceof \ReflectionProperty && $reflector->isPromoted()) {
368			$constructor = $reflector->getDeclaringClass()->getConstructor();
369			if (!$constructor) {
370			return [];
371			}
372
373			$docComment = $constructor->getDocComment();
374
375			if (!$docComment) {
376			return [];
377			}
378
379			$tokens = $this->lexer->tokenize($docComment);
380			$phpDocNode = $this->phpDocParser->parse(new TokenIterator($tokens));
381
382			return $this->flattenParamTagValueTypes($reflector->getName(), $phpDocNode->getParamTagValues());
383			}
384
385			if (!$docComment) {
386			return [];
387			}
388
389			// First we tokenize the PhpDoc comment and parse the tokens into a PhpDocNode.
390			$tokens = $this->lexer->tokenize($docComment);
391			$phpDocNode = $this->phpDocParser->parse(new TokenIterator($tokens));
392
393			if ($reflector instanceof \ReflectionProperty) {
394			// Then we retrieve a flattened list of annotated types excluding null.
395			$tagValues = $phpDocNode->getVarTagValues();
396			} else {
397			// Then we retrieve a flattened list of annotated types including null.
398			$tagValues = $phpDocNode->getReturnTagValues();
399			}
400
401			$types = $this->flattenTagValueTypes($tagValues);
402
403			return $this->filterNullFromTypes($types);
404			}
405
406			/**
407			* @param \ReflectionMethod\|\ReflectionProperty $reflector
408			*/
409			private function getPhpstanType(\ReflectionClass $declaringClass, string $typeHint, $reflector): ?string
410			{
411			$tokens = $this->lexer->tokenize($declaringClass->getDocComment());
412			$phpDocNode = $this->phpDocParser->parse(new TokenIterator($tokens));
413			$self = $this;
414
415			foreach ($phpDocNode->children as $node) {
416			if ($node instanceof PhpDocTagNode && '@phpstan-type' === $node->name) {
417			$phpstanType = (string) $node->value;
418			preg_match_all(self::PHPSTAN_ARRAY_SHAPE, $phpstanType, $foundPhpstanArray);
419			if (isset($foundPhpstanArray[1][0]) && $foundPhpstanArray[1][0] === $typeHint) {
420			return 'array';
421			}
422
423			preg_match_all(self::PHPSTAN_ARRAY_TYPE, $phpstanType, $foundPhpstanArray);
424			if (isset($foundPhpstanArray[2][0]) && $foundPhpstanArray[1][0] === $typeHint) {
425			$types = explode(',', $foundPhpstanArray[2][0]);
426
427			return sprintf('array<%s>', implode(
428			',',
429			array_map(static function (string $type) use ($reflector, $self) {
430			return $self->resolveType(trim($type), $reflector);
431			}, $types)
432			));
433			}
434			}
435			}
436
437			return null;
438			}
439			}
440

schmittjoh / serializer

Pull Request — master (#1487)

DocBlockTypeResolver F

Complexity

Size/Duplication

Importance

21 Methods

How to fix Complexity

Complex Class

Duplication Side-by-Side

Filter issues like