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/*
This source file is part of the Swift.org open source project
Copyright (c) 2021-2024 Apple Inc. and the Swift project authors
Licensed under Apache License v2.0 with Runtime Library Exception
See https://swift.org/LICENSE.txt for license information
See https://swift.org/CONTRIBUTORS.txt for Swift project authors
*/
import Foundation
extension SymbolGraph {
/**
A symbol from a module.
A `Symbol` corresponds to some named declaration in a module.
For example, a class is a `Symbol` in the graph.
A `Symbol` should never contain another `Symbol` as a field or part of a field.
If a symbol is related to another symbol, it should be formalized
as a `Relationship` in an `Edge` if possible (it usually is).
Symbols may have information that is specific to its kind, but all symbols
must contain at least the following information in the `Symbol` interface.
In addition, various attributes of the symbol should be mixed in with
symbol *mix-ins*, some of which are defined below.
The consumer of a symbol graph should be able to dynamically handle or ignore
additional attributes in a `Symbol`.
*/
public struct Symbol: Codable {
/// The unique identifier for the symbol.
public var identifier: Identifier
/// The kind of symbol.
public var kind: Kind
/**
A short convenience path that uniquely identifies a symbol when there are no ambiguities using only URL-compatible characters. Do not include the module name here.
For example, in a Swift module `MyModule`, there might exist a function `bar` in `struct Foo`.
The `simpleComponents` for `bar` would be `["Foo", "bar"]`, corresponding to `Foo.bar`.
> Note: When writing relative links, an author may choose to remove leading components, so disambiguating path components should only be appended to the end, not prepended to the beginning.
*/
public var pathComponents: [String]
/// If the static type of a symbol is known, the precise identifier of
/// the symbol that declares the type.
public var type: String?
/// The context-specific names of a symbol.
public var names: Names
/// The in-source documentation comment attached to a symbol.
public var docComment: LineList?
/// If true, the symbol was created implicitly and not from source.
public var isVirtual: Bool
/// If the symbol has a documentation comment, whether the documentation comment is from
/// the same module as the symbol or not.
///
/// An inherited documentation comment is from the same module when the symbol that the documentation is inherited from is in the same module as this symbol.
@available(*, deprecated, message: "Use 'isDocCommentFromSameModule(symbolModuleName:)' instead.")
public var isDocCommentFromSameModule: Bool? {
_isDocCommentFromSameModule
}
// To avoid deprecation warnings in SymbolKit test until the deprecated property is removed.
internal var _isDocCommentFromSameModule: Bool? {
guard let docComment = docComment, !docComment.lines.isEmpty else {
return nil
}
// As a current implementation detail, documentation comments from within the current module has range information but
// documentation comments that are inherited from other modules don't have any range information.
//
// This isn't always correct and is only used as a fallback logic for symbol information before the source module was
// included in the symbol graph file.
return docComment.lines.contains(where: { $0.range != nil })
}
/// If the symbol has a documentation comment, checks whether the documentation comment is from the same module as the symbol.
///
/// A documentation comment is from the same module as the symbol when the source of the documentation comment is the symbol itself or another symbol in the same module.
///
/// - Parameter symbolModuleName: The name of the module where the symbol is defined.
/// - Returns: `true`if the source of the documentation comment is from the same module as this symbol.
public func isDocCommentFromSameModule(symbolModuleName: String) -> Bool? {
guard let docComment = docComment, !docComment.lines.isEmpty else {
return nil
}
if let moduleName = docComment.moduleName {
// If the new source module information is available, rely on that.
return moduleName == symbolModuleName
} else {
// Otherwise, fallback to the previous implementation.
return _isDocCommentFromSameModule
}
}
/// The access level of the symbol.
public var accessLevel: AccessControl
/// Information about a symbol that is not necessarily common to all symbols.
///
/// Mixins are keyed based on the ``Mixin/mixinKey`` of the mixin type itself. The decoding
/// method matches unknown JSON keys against registered mixin keys during the decoding
/// process, and decodes any matching type into this dictionary for later use.
///
/// - Note: If you intend to encode/decode this symbol, make sure to register
/// any added ``Mixin``s that do not appear on symbols in the standard format
/// on your coder using ``register(mixins:to:onEncodingError:onDecodingError:)``.
public var mixins: [String: Mixin] = [:]
/// Information about a symbol that is not necessarily common to all symbols.
///
/// - Note: If you intend to encode/decode this symbol, make sure to register
/// any added ``Mixin``s that do not appear on symbols in the standard format
/// on your coder using ``register(mixins:to:onEncodingError:onDecodingError:)``.
public subscript<M: Mixin>(mixin mixin: M.Type = M.self) -> M? {
get {
mixins[mixin.mixinKey] as? M
}
set {
mixins[mixin.mixinKey] = newValue
}
}
public init(identifier: Identifier, names: Names, pathComponents: [String], docComment: LineList?, accessLevel: AccessControl, kind: Kind, mixins: [String: Mixin], isVirtual: Bool = false) {
self.identifier = identifier
self.names = names
self.pathComponents = pathComponents
self.docComment = docComment
self.accessLevel = accessLevel
self.kind = kind
self.isVirtual = isVirtual
self.mixins = mixins
}
public init(from decoder: Decoder) throws {
let container = try decoder.container(keyedBy: CodingKeys.self)
identifier = try container.decode(Identifier.self, forKey: .identifier)
kind = try container.decode(Kind.self, forKey: .kind)
pathComponents = try container.decode([String].self, forKey: .pathComponents)
type = try container.decodeIfPresent(String.self, forKey: .type)
names = try container.decode(Names.self, forKey: .names)
docComment = try container.decodeIfPresent(LineList.self, forKey: .docComment)
accessLevel = try container.decode(AccessControl.self, forKey: .accessLevel)
isVirtual = try container.decodeIfPresent(Bool.self, forKey: .isVirtual) ?? false
for key in container.allKeys {
guard let info = CodingKeys.mixinCodingInfo[key.stringValue] ?? decoder.registeredSymbolMixins?[key.stringValue] else {
continue
}
mixins[key.stringValue] = try info.decode(container)
}
}
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
// Base
try container.encode(identifier, forKey: .identifier)
try container.encode(kind, forKey: .kind)
try container.encode(pathComponents, forKey: .pathComponents)
try container.encode(names, forKey: .names)
try container.encodeIfPresent(docComment, forKey: .docComment)
try container.encode(accessLevel, forKey: .accessLevel)
if isVirtual {
try container.encode(isVirtual, forKey: .isVirtual)
}
// Mixins
for (key, mixin) in mixins {
guard let info = CodingKeys.mixinCodingInfo[key] ?? encoder.registeredSymbolMixins?[key] else {
continue
}
try info.encode(mixin, &container)
}
}
/**
The absolute path from the module or framework to the symbol itself.
*/
public var absolutePath: String {
return pathComponents.joined(separator: "/")
}
}
}
extension SymbolGraph.Symbol {
struct CodingKeys: CodingKey, Hashable {
let stringValue: String
init?(stringValue: String) {
self = CodingKeys(rawValue: stringValue)
}
init(rawValue: String) {
self.stringValue = rawValue
}
// Base
static let identifier = CodingKeys(rawValue: "identifier")
static let kind = CodingKeys(rawValue: "kind")
static let pathComponents = CodingKeys(rawValue: "pathComponents")
static let type = CodingKeys(rawValue: "type")
static let names = CodingKeys(rawValue: "names")
static let docComment = CodingKeys(rawValue: "docComment")
static let accessLevel = CodingKeys(rawValue: "accessLevel")
static let isVirtual = CodingKeys(rawValue: "isVirtual")
// Mixins
static let availability = Availability.symbolCodingInfo
static let declarationFragments = DeclarationFragments.symbolCodingInfo
static let isReadOnly = Mutability.symbolCodingInfo
static let swiftExtension = Swift.Extension.symbolCodingInfo
static let swiftGenerics = Swift.Generics.symbolCodingInfo
static let location = Location.symbolCodingInfo
static let functionSignature = FunctionSignature.symbolCodingInfo
static let spi = SPI.symbolCodingInfo
static let snippet = Snippet.symbolCodingInfo
static let minimum = Minimum.symbolCodingInfo
static let maximum = Maximum.symbolCodingInfo
static let minimumExclusive = MinimumExclusive.symbolCodingInfo
static let maximumExclusive = MaximumExclusive.symbolCodingInfo
static let minimumLength = MinimumLength.symbolCodingInfo
static let maximumLength = MaximumLength.symbolCodingInfo
static let allowedValues = AllowedValues.symbolCodingInfo
static let defaultValue = DefaultValue.symbolCodingInfo
static let typeDetails = TypeDetails.symbolCodingInfo
static let httpEndpoint = HTTP.Endpoint.symbolCodingInfo
static let httpParameterSource = HTTP.ParameterSource.symbolCodingInfo
static let httpMediaType = HTTP.MediaType.symbolCodingInfo
static let alternateDeclarations = AlternateDeclarations.symbolCodingInfo
static let plistDetails = PlistDetails.symbolCodingInfo
static let mixinCodingInfo: [String: SymbolMixinCodingInfo] = [
CodingKeys.availability.codingKey.stringValue: Self.availability,
CodingKeys.declarationFragments.codingKey.stringValue: Self.declarationFragments,
CodingKeys.isReadOnly.codingKey.stringValue: Self.isReadOnly,
CodingKeys.swiftExtension.codingKey.stringValue: Self.swiftExtension,
CodingKeys.swiftGenerics.codingKey.stringValue: Self.swiftGenerics,
// malformed location data is discarded silently
CodingKeys.location.codingKey.stringValue: Self.location.with(decodingErrorHandler: { _ in nil }),
CodingKeys.functionSignature.codingKey.stringValue: Self.functionSignature,
CodingKeys.spi.codingKey.stringValue: Self.spi,
CodingKeys.snippet.codingKey.stringValue: Self.snippet,
CodingKeys.minimum.codingKey.stringValue: Self.minimum,
CodingKeys.maximum.codingKey.stringValue: Self.maximum,
CodingKeys.minimumExclusive.codingKey.stringValue: Self.minimumExclusive,
CodingKeys.maximumExclusive.codingKey.stringValue: Self.maximumExclusive,
CodingKeys.minimumLength.codingKey.stringValue: Self.minimumLength,
CodingKeys.maximumLength.codingKey.stringValue: Self.maximumLength,
CodingKeys.allowedValues.codingKey.stringValue: Self.allowedValues,
CodingKeys.defaultValue.codingKey.stringValue: Self.defaultValue,
CodingKeys.typeDetails.codingKey.stringValue: Self.typeDetails,
CodingKeys.httpEndpoint.codingKey.stringValue: Self.httpEndpoint,
CodingKeys.httpParameterSource.codingKey.stringValue: Self.httpParameterSource,
CodingKeys.httpMediaType.codingKey.stringValue: Self.httpMediaType,
CodingKeys.alternateDeclarations.codingKey.stringValue: Self.alternateDeclarations,
CodingKeys.plistDetails.codingKey.stringValue: Self.plistDetails
]
static func == (lhs: SymbolGraph.Symbol.CodingKeys, rhs: SymbolGraph.Symbol.CodingKeys) -> Bool {
lhs.stringValue == rhs.stringValue
}
func hash(into hasher: inout Hasher) {
stringValue.hash(into: &hasher)
}
var intValue: Int? { nil }
init?(intValue: Int) {
nil
}
}
}
extension SymbolGraph.Symbol {
/// Register types conforming to ``Mixin`` so they can be included when encoding or
/// decoding symbols.
///
/// If ``SymbolGraph/Symbol`` does not know the concrete type of a ``Mixin``, it cannot encode
/// or decode that type and thus skips such entries. Note that ``Mixin``s that occur on symbols
/// in the default symbol graph format do not have to be registered!
///
/// - Parameter userInfo: A property which allows editing the `userInfo` member of the
/// `Encoder`/`Decoder` protocol.
/// - Parameter onEncodingError: Defines the behavior when an error occurs while encoding these types of ``Mixin``s.
/// You can log warnings and either re-throw or consume the error.
/// - Parameter onDecodingError: Defines the behavior when an error occurs while decoding these types of ``Mixin``s.
/// Next to logging warnings, the function allows for either re-throwing the error,
/// skipping the erroneous entry, or providing a default value.
public static func register<M: Sequence>(mixins mixinTypes: M,
to userInfo: inout [CodingUserInfoKey: Any],
onEncodingError: ((_ error: Error, _ mixin: Mixin) throws -> Void)?,
onDecodingError: ((_ error: Error) throws -> Mixin?)?)
where M.Element == Mixin.Type {
var registeredMixins = userInfo[.symbolMixinKey] as? [String: SymbolMixinCodingInfo] ?? [:]
for type in mixinTypes {
var info = type.symbolCodingInfo
if let encodingErrorHandler = onEncodingError {
info = info.with(encodingErrorHandler: encodingErrorHandler)
}
if let decodingErrorHandler = onDecodingError {
info = info.with(decodingErrorHandler: decodingErrorHandler)
}
registeredMixins[type.mixinKey] = info
}
userInfo[.symbolMixinKey] = registeredMixins
}
}
public extension JSONEncoder {
/// Register types conforming to ``Mixin`` so they can be included when encoding symbols.
///
/// If ``SymbolGraph/Symbol`` does not know the concrete type of a ``Mixin``, it cannot encode
/// that type and thus skips such entries. Note that ``Mixin``s that occur on symbols
/// in the default symbol graph format do not have to be registered!
///
/// - Parameter onEncodingError: Defines the behavior when an error occurs while encoding these types of ``Mixin``s.
/// You can log warnings and either re-throw or consume the error.
/// - Parameter onDecodingError: Defines the behavior when an error occurs while decoding these types of ``Mixin``s.
/// Next to logging warnings, the function allows for either re-throwing the error,
/// skipping the erroneous entry, or providing a default value.
func register(symbolMixins mixinTypes: Mixin.Type...,
onEncodingError: ((_ error: Error, _ mixin: Mixin) throws -> Void)? = nil,
onDecodingError: ((_ error: Error) throws -> Mixin?)? = nil) {
SymbolGraph.Symbol.register(mixins: mixinTypes,
to: &self.userInfo,
onEncodingError: onEncodingError,
onDecodingError: onDecodingError)
}
}
public extension JSONDecoder {
/// Register types conforming to ``Mixin`` so they can be included when decoding symbols.
///
/// If ``SymbolGraph/Symbol`` does not know the concrete type of a ``Mixin``, it cannot decode
/// that type and thus skips such entries. Note that ``Mixin``s that occur on symbols
/// in the default symbol graph format do not have to be registered!
///
/// - Parameter onEncodingError: Defines the behavior when an error occurs while encoding these types of ``Mixin``s.
/// You can log warnings and either re-throw or consume the error.
/// - Parameter onDecodingError: Defines the behavior when an error occurs while decoding these types of ``Mixin``s.
/// Next to logging warnings, the function allows for either re-throwing the error,
/// skipping the erroneous entry, or providing a default value.
func register(symbolMixins mixinTypes: Mixin.Type...,
onEncodingError: ((_ error: Error, _ mixin: Mixin) throws -> Void)? = nil,
onDecodingError: ((_ error: Error) throws -> Mixin?)? = nil) {
SymbolGraph.Symbol.register(mixins: mixinTypes,
to: &self.userInfo,
onEncodingError: onEncodingError,
onDecodingError: onDecodingError)
}
}
extension Encoder {
var registeredSymbolMixins: [String: SymbolMixinCodingInfo]? {
self.userInfo[.symbolMixinKey] as? [String: SymbolMixinCodingInfo]
}
}
extension Decoder {
var registeredSymbolMixins: [String: SymbolMixinCodingInfo]? {
self.userInfo[.symbolMixinKey] as? [String: SymbolMixinCodingInfo]
}
}
extension CodingUserInfoKey {
static let symbolMixinKey = CodingUserInfoKey(rawValue: "org.swift.symbolkit.symbolMixinKey")!
}
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