graphql-php/src/Executor/Executor.php

541 lines
19 KiB
PHP
Raw Normal View History

2015-07-15 20:05:46 +03:00
<?php
namespace GraphQL\Executor;
use GraphQL\Error;
use GraphQL\Language\AST\Document;
use GraphQL\Language\AST\Field;
use GraphQL\Language\AST\FragmentDefinition;
use GraphQL\Language\AST\Node;
use GraphQL\Language\AST\OperationDefinition;
use GraphQL\Language\AST\SelectionSet;
use GraphQL\Schema;
use GraphQL\Type\Definition\Directive;
use GraphQL\Type\Definition\EnumType;
use GraphQL\Type\Definition\FieldDefinition;
use GraphQL\Type\Definition\InterfaceType;
use GraphQL\Type\Definition\ListOfType;
use GraphQL\Type\Definition\NonNull;
use GraphQL\Type\Definition\ObjectType;
use GraphQL\Type\Definition\ScalarType;
use GraphQL\Type\Definition\Type;
use GraphQL\Type\Definition\UnionType;
use GraphQL\Type\Introspection;
use GraphQL\Utils;
/**
* Terminology
*
* "Definitions" are the generic name for top-level statements in the document.
* Examples of this include:
* 1) Operations (such as a query)
* 2) Fragments
*
* "Operations" are a generic name for requests in the document.
* Examples of this include:
* 1) query,
* 2) mutation
*
* "Selections" are the statements that can appear legally and at
* single level of the query. These include:
* 1) field references e.g "a"
* 2) fragment "spreads" e.g. "...c"
* 3) inline fragment "spreads" e.g. "...on Type { a }"
*/
class Executor
{
private static $UNDEFINED;
public static function execute(Schema $schema, $root, Document $ast, $operationName = null, array $args = null)
{
if (!self::$UNDEFINED) {
self::$UNDEFINED = new \stdClass();
}
try {
$errors = new \ArrayObject();
$exeContext = self::buildExecutionContext($schema, $root, $ast, $operationName, $args, $errors);
$data = self::executeOperation($exeContext, $root, $exeContext->operation);
} catch (\Exception $e) {
$errors[] = $e;
}
$result = [
'data' => isset($data) ? $data : null
];
if (count($errors) > 0) {
$result['errors'] = array_map(['GraphQL\Error', 'formatError'], $errors->getArrayCopy());
}
return $result;
}
/**
* Constructs a ExecutionContext object from the arguments passed to
* execute, which we will pass throughout the other execution methods.
*/
private static function buildExecutionContext(Schema $schema, $root, Document $ast, $operationName = null, array $args = null, &$errors)
{
$operations = [];
$fragments = [];
foreach ($ast->definitions as $statement) {
switch ($statement->kind) {
case Node::OPERATION_DEFINITION:
$operations[$statement->name ? $statement->name->value : ''] = $statement;
break;
case Node::FRAGMENT_DEFINITION:
$fragments[$statement->name->value] = $statement;
break;
}
}
if (!$operationName && count($operations) !== 1) {
throw new Error(
'Must provide operation name if query contains multiple operations'
);
}
$opName = $operationName ?: key($operations);
if (!isset($operations[$opName])) {
throw new Error('Unknown operation name: ' . $opName);
}
$operation = $operations[$opName];
$variables = Values::getVariableValues($schema, $operation->variableDefinitions ?: array(), $args ?: []);
$exeContext = new ExecutionContext($schema, $fragments, $root, $operation, $variables, $errors);
return $exeContext;
}
/**
* Implements the "Evaluating operations" section of the spec.
*/
private static function executeOperation(ExecutionContext $exeContext, $root, OperationDefinition $operation)
{
$type = self::getOperationRootType($exeContext->schema, $operation);
$fields = self::collectFields($exeContext, $type, $operation->selectionSet, new \ArrayObject(), new \ArrayObject());
if ($operation->operation === 'mutation') {
return self::executeFieldsSerially($exeContext, $type, $root, $fields->getArrayCopy());
}
return self::executeFields($exeContext, $type, $root, $fields);
}
/**
* Extracts the root type of the operation from the schema.
*
* @param Schema $schema
* @param OperationDefinition $operation
* @return ObjectType
* @throws Error
*/
private static function getOperationRootType(Schema $schema, OperationDefinition $operation)
{
switch ($operation->operation) {
case 'query':
return $schema->getQueryType();
case 'mutation':
$mutationType = $schema->getMutationType();
if (!$mutationType) {
throw new Error(
'Schema is not configured for mutations',
[$operation]
);
}
return $mutationType;
default:
throw new Error(
'Can only execute queries and mutations',
[$operation]
);
}
}
/**
* Implements the "Evaluating selection sets" section of the spec
* for "write" mode.
*/
private static function executeFieldsSerially(ExecutionContext $exeContext, ObjectType $parentType, $source, $fields)
{
$results = [];
foreach ($fields as $responseName => $fieldASTs) {
$result = self::resolveField($exeContext, $parentType, $source, $fieldASTs);
if ($result !== self::$UNDEFINED) {
// Undefined means that field is not defined in schema
$results[$responseName] = $result;
}
}
return $results;
}
/**
* Implements the "Evaluating selection sets" section of the spec
* for "read" mode.
*/
private static function executeFields(ExecutionContext $exeContext, ObjectType $parentType, $source, $fields)
{
// Native PHP doesn't support promises.
// Custom executor should be built for platforms like ReactPHP
return self::executeFieldsSerially($exeContext, $parentType, $source, $fields);
}
/**
* Given a selectionSet, adds all of the fields in that selection to
* the passed in map of fields, and returns it at the end.
*
* @return \ArrayObject
*/
private static function collectFields(
ExecutionContext $exeContext,
ObjectType $type,
SelectionSet $selectionSet,
$fields,
$visitedFragmentNames
)
{
for ($i = 0; $i < count($selectionSet->selections); $i++) {
$selection = $selectionSet->selections[$i];
switch ($selection->kind) {
case Node::FIELD:
if (!self::shouldIncludeNode($exeContext, $selection->directives)) {
continue;
}
$name = self::getFieldEntryKey($selection);
if (!isset($fields[$name])) {
$fields[$name] = new \ArrayObject();
}
$fields[$name][] = $selection;
break;
case Node::INLINE_FRAGMENT:
if (!self::shouldIncludeNode($exeContext, $selection->directives) ||
!self::doesFragmentConditionMatch($exeContext, $selection, $type)
) {
continue;
}
self::collectFields(
$exeContext,
$type,
$selection->selectionSet,
$fields,
$visitedFragmentNames
);
break;
case Node::FRAGMENT_SPREAD:
$fragName = $selection->name->value;
if (!empty($visitedFragmentNames[$fragName]) || !self::shouldIncludeNode($exeContext, $selection->directives)) {
continue;
}
$visitedFragmentNames[$fragName] = true;
/** @var FragmentDefinition|null $fragment */
$fragment = isset($exeContext->fragments[$fragName]) ? $exeContext->fragments[$fragName] : null;
if (!$fragment ||
!self::shouldIncludeNode($exeContext, $fragment->directives) ||
!self::doesFragmentConditionMatch($exeContext, $fragment, $type)
) {
continue;
}
self::collectFields(
$exeContext,
$type,
$fragment->selectionSet,
$fields,
$visitedFragmentNames
);
break;
}
}
return $fields;
}
/**
* Determines if a field should be included based on @if and @unless directives.
*/
private static function shouldIncludeNode(ExecutionContext $exeContext, $directives)
{
$ifDirective = Values::getDirectiveValue(Directive::ifDirective(), $directives, $exeContext->variables);
if ($ifDirective !== null) {
return $ifDirective;
}
$unlessDirective = Values::getDirectiveValue(Directive::unlessDirective(), $directives, $exeContext->variables);
if ($unlessDirective !== null) {
return !$unlessDirective;
}
return true;
}
/**
* Determines if a fragment is applicable to the given type.
*/
private static function doesFragmentConditionMatch(ExecutionContext $exeContext,/* FragmentDefinition | InlineFragment*/ $fragment, ObjectType $type)
{
$conditionalType = Utils\TypeInfo::typeFromAST($exeContext->schema, $fragment->typeCondition);
if ($conditionalType === $type) {
return true;
}
if ($conditionalType instanceof InterfaceType ||
$conditionalType instanceof UnionType
) {
return $conditionalType->isPossibleType($type);
}
return false;
}
/**
2015-08-09 21:26:36 +03:00
* Implements the logic to compute the key of a given fields entry
2015-07-15 20:05:46 +03:00
*/
private static function getFieldEntryKey(Field $node)
{
return $node->alias ? $node->alias->value : $node->name->value;
}
/**
* A wrapper function for resolving the field, that catches the error
* and adds it to the context's global if the error is not rethrowable.
*/
private static function resolveField(ExecutionContext $exeContext, ObjectType $parentType, $source, $fieldASTs)
{
$fieldDef = self::getFieldDef($exeContext->schema, $parentType, $fieldASTs[0]);
if (!$fieldDef) {
return self::$UNDEFINED;
}
// If the field type is non-nullable, then it is resolved without any
// protection from errors.
if ($fieldDef->getType() instanceof NonNull) {
return self::resolveFieldOrError(
$exeContext,
$parentType,
$source,
$fieldASTs,
$fieldDef
);
}
// Otherwise, error protection is applied, logging the error and resolving
// a null value for this field if one is encountered.
try {
$result = self::resolveFieldOrError(
$exeContext,
$parentType,
$source,
$fieldASTs,
$fieldDef
);
return $result;
} catch (\Exception $error) {
$exeContext->addError($error);
return null;
}
}
/**
* Resolves the field on the given source object. In particular, this
* figures out the object that the field returns using the resolve function,
* then calls completeField to coerce scalars or execute the sub
* selection set for objects.
*/
private static function resolveFieldOrError(
ExecutionContext $exeContext,
ObjectType $parentType,
$source,
/*array<Field>*/ $fieldASTs,
FieldDefinition $fieldDef
)
{
$fieldAST = $fieldASTs[0];
$fieldType = $fieldDef->getType();
$resolveFn = $fieldDef->resolve ?: [__CLASS__, 'defaultResolveFn'];
// Build a JS object of arguments from the field.arguments AST, using the
// variables scope to fulfill any variable references.
// TODO: find a way to memoize, in case this field is within a Array type.
$args = Values::getArgumentValues(
$fieldDef->args,
$fieldAST->arguments,
$exeContext->variables
);
try {
$result = call_user_func($resolveFn,
$source,
$args,
$exeContext->root,
// TODO: provide all fieldASTs, not just the first field
$fieldAST,
$fieldType,
$parentType,
$exeContext->schema
);
} catch (\Exception $error) {
throw new Error($error->getMessage(), [$fieldAST], $error->getTrace());
}
return self::completeField(
$exeContext,
$fieldType,
$fieldASTs,
$result
);
}
/**
* Implements the instructions for completeValue as defined in the
* "Field entries" section of the spec.
*
* If the field type is Non-Null, then this recursively completes the value
* for the inner type. It throws a field error if that completion returns null,
* as per the "Nullability" section of the spec.
*
* If the field type is a List, then this recursively completes the value
* for the inner type on each item in the list.
*
* If the field type is a Scalar or Enum, ensures the completed value is a legal
* value of the type by calling the `coerce` method of GraphQL type definition.
*
* Otherwise, the field type expects a sub-selection set, and will complete the
* value by evaluating all sub-selections.
*/
private static function completeField(ExecutionContext $exeContext, Type $fieldType,/* Array<Field> */ $fieldASTs, &$result)
{
// If field type is NonNull, complete for inner type, and throw field error
// if result is null.
if ($fieldType instanceof NonNull) {
$completed = self::completeField(
$exeContext,
$fieldType->getWrappedType(),
$fieldASTs,
$result
);
if ($completed === null) {
throw new Error(
'Cannot return null for non-nullable type.',
$fieldASTs instanceof \ArrayObject ? $fieldASTs->getArrayCopy() : $fieldASTs
);
}
return $completed;
}
// If result is null-like, return null.
if (null === $result) {
return null;
}
// If field type is List, complete each item in the list with the inner type
if ($fieldType instanceof ListOfType) {
$itemType = $fieldType->getWrappedType();
Utils::invariant(
is_array($result) || $result instanceof \Traversable,
2015-07-15 20:05:46 +03:00
'User Error: expected iterable, but did not find one.'
);
$tmp = [];
foreach ($result as $item) {
$tmp[] = self::completeField($exeContext, $itemType, $fieldASTs, $item);
}
return $tmp;
}
// If field type is Scalar or Enum, coerce to a valid value, returning null
// if coercion is not possible.
if ($fieldType instanceof ScalarType ||
$fieldType instanceof EnumType
) {
Utils::invariant(method_exists($fieldType, 'coerce'), 'Missing coerce method on type');
return $fieldType->coerce($result);
}
// Field type must be Object, Interface or Union and expect sub-selections.
$objectType =
$fieldType instanceof ObjectType ? $fieldType :
($fieldType instanceof InterfaceType ||
$fieldType instanceof UnionType ? $fieldType->resolveType($result) :
null);
if (!$objectType) {
return null;
}
// Collect sub-fields to execute to complete this value.
$subFieldASTs = new \ArrayObject();
$visitedFragmentNames = new \ArrayObject();
for ($i = 0; $i < count($fieldASTs); $i++) {
$selectionSet = $fieldASTs[$i]->selectionSet;
if ($selectionSet) {
$subFieldASTs = self::collectFields(
$exeContext,
$objectType,
$selectionSet,
$subFieldASTs,
$visitedFragmentNames
);
}
}
return self::executeFields($exeContext, $objectType, $result, $subFieldASTs);
}
/**
* If a resolve function is not given, then a default resolve behavior is used
* which takes the property of the source object of the same name as the field
* and returns it as the result, or if it's a function, returns the result
* of calling that function.
*/
public static function defaultResolveFn($source, $args, $root, $fieldAST)
{
$property = null;
if (is_array($source) || $source instanceof \ArrayAccess) {
if (isset($source[$fieldAST->name->value])) {
$property = $source[$fieldAST->name->value];
}
} else if (is_object($source)) {
if (property_exists($source, $fieldAST->name->value)) {
$e = func_get_args();
$property = $source->{$fieldAST->name->value};
}
}
return is_callable($property) ? call_user_func($property, $source) : $property;
}
/**
* This method looks up the field on the given type defintion.
* It has special casing for the two introspection fields, __schema
* and __typename. __typename is special because it can always be
* queried as a field, even in situations where no other fields
* are allowed, like on a Union. __schema could get automatically
* added to the query type, but that would require mutating type
* definitions, which would cause issues.
*
* @return FieldDefinition
*/
private static function getFieldDef(Schema $schema, ObjectType $parentType, Field $fieldAST)
{
$name = $fieldAST->name->value;
$schemaMetaFieldDef = Introspection::schemaMetaFieldDef();
$typeMetaFieldDef = Introspection::typeMetaFieldDef();
$typeNameMetaFieldDef = Introspection::typeNameMetaFieldDef();
if ($name === $schemaMetaFieldDef->name &&
$schema->getQueryType() === $parentType
) {
return $schemaMetaFieldDef;
} else if ($name === $typeMetaFieldDef->name &&
$schema->getQueryType() === $parentType
) {
return $typeMetaFieldDef;
} else if ($name === $typeNameMetaFieldDef->name) {
return $typeNameMetaFieldDef;
}
$tmp = $parentType->getFields();
return isset($tmp[$name]) ? $tmp[$name] : null;
}
}