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swift-mirror/stdlib/public/core/StaticString.swift
Doug Gregor 1a1f79c0de Introduce safety checkin for ConcurrentValue conformance. 
Introduce checking of ConcurrentValue conformances:
- For structs, check that each stored property conforms to ConcurrentValue
- For enums, check that each associated value conforms to ConcurrentValue
- For classes, check that each stored property is immutable and conforms
  to ConcurrentValue

Because all of the stored properties / associated values need to be
visible for this check to work, limit ConcurrentValue conformances to
be in the same source file as the type definition.

This checking can be disabled by conforming to a new marker protocol,
UnsafeConcurrentValue, that refines ConcurrentValue.
UnsafeConcurrentValue otherwise his no specific meaning. This allows
both "I know what I'm doing" for types that manage concurrent access
themselves as well as enabling retroactive conformance, both of which
are fundamentally unsafe but also quite necessary.

The bulk of this change ended up being to the standard library, because
all conformances of standard library types to the ConcurrentValue
protocol needed to be sunk down into the standard library so they
would benefit from the checking above. There were numerous little
mistakes in the initial pass through the stsandard library types that
have now been corrected.
2021-02-04 03:45:09 -08:00

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//===----------------------------------------------------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2020 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 the list of Swift project authors
//
//===----------------------------------------------------------------------===//
//
// Implementation Note: Because StaticString is used in the
// implementation of _precondition(), _fatalErrorMessage(), etc., we
// keep it extremely close to the bare metal. In particular, because
// we store only Builtin types, we are guaranteed that no assertions
// are involved in its construction. This feature is crucial for
// preventing infinite recursion even in non-asserting cases.
//
//===----------------------------------------------------------------------===//
/// A string type designed to represent text that is known at compile time.
///
/// Instances of the `StaticString` type are immutable.
///
/// `StaticString` provides only low-level access to its contents, unlike
/// Swift's more commonly used `String` type. A static string can use
/// either of the following as its storage:
///
/// * a pointer to a null-terminated sequence of UTF-8 code units:
///
/// let emoji: StaticString = "\u{1F600}"
/// emoji.hasPointerRepresentation //-> true
/// emoji.isASCII //-> false
/// emoji.unicodeScalar //-> Fatal error!
/// emoji.utf8CodeUnitCount //-> 4
/// emoji.utf8Start[0] //-> 0xF0
/// emoji.utf8Start[1] //-> 0x9F
/// emoji.utf8Start[2] //-> 0x98
/// emoji.utf8Start[3] //-> 0x80
/// emoji.utf8Start[4] //-> 0x00
///
/// * a single Unicode scalar value, under very limited circumstances:
///
/// struct MyStaticScalar: ExpressibleByUnicodeScalarLiteral {
/// typealias UnicodeScalarLiteralType = StaticString
/// let value: StaticString
/// init(unicodeScalarLiteral value: StaticString) {
/// self.value = value
/// }
/// }
///
/// let emoji: StaticString = MyStaticScalar("\u{1F600}").value
/// emoji.hasPointerRepresentation //-> false
/// emoji.isASCII //-> false
/// emoji.unicodeScalar.value //-> 0x1F600
/// emoji.utf8CodeUnitCount //-> Fatal error!
/// emoji.utf8Start //-> Fatal error!
///
/// You can use the `withUTF8Buffer(_:)` method to access a static string's
/// contents, regardless of which representation the static string uses.
///
/// emoji.withUTF8Buffer { utf8 in
/// utf8.count //-> 4
/// utf8[0] //-> 0xF0
/// utf8[1] //-> 0x9F
/// utf8[2] //-> 0x98
/// utf8[3] //-> 0x80
/// utf8[4] //-> Fatal error!
/// }
@frozen
public struct StaticString: ConcurrentValue {
/// Either a pointer to the start of UTF-8 data, represented as an integer,
/// or an integer representation of a single Unicode scalar.
@usableFromInline
internal var _startPtrOrData: Builtin.Word
/// If `_startPtrOrData` is a pointer, contains the length of the UTF-8 data
/// in bytes (excluding the null terminator).
@usableFromInline
internal var _utf8CodeUnitCount: Builtin.Word
/// Extra flags:
///
/// - bit 0: set to 0 if `_startPtrOrData` is a pointer, or to 1 if it is a
/// Unicode scalar.
///
/// - bit 1: set to 1 if `_startPtrOrData` either points to an ASCII code unit
/// sequence, or stores an ASCII scalar value.
@usableFromInline
internal var _flags: Builtin.Int8
/// A pointer to a null-terminated sequence of UTF-8 code units.
///
/// - Important: Accessing this property when `hasPointerRepresentation` is
/// `false` triggers a runtime error.
@_transparent
public var utf8Start: UnsafePointer<UInt8> {
_precondition(
hasPointerRepresentation,
"StaticString should have pointer representation")
return UnsafePointer(bitPattern: UInt(_startPtrOrData))!
}
/// A single Unicode scalar value.
///
/// - Important: Accessing this property when `hasPointerRepresentation` is
/// `true` triggers a runtime error.
@_transparent
public var unicodeScalar: Unicode.Scalar {
_precondition(
!hasPointerRepresentation,
"StaticString should have Unicode scalar representation")
return Unicode.Scalar(UInt32(UInt(_startPtrOrData)))!
}
/// The number of UTF-8 code units (excluding the null terminator).
///
/// - Important: Accessing this property when `hasPointerRepresentation` is
/// `false` triggers a runtime error.
@_transparent
public var utf8CodeUnitCount: Int {
_precondition(
hasPointerRepresentation,
"StaticString should have pointer representation")
return Int(_utf8CodeUnitCount)
}
@_alwaysEmitIntoClient @_transparent
internal var unsafeRawPointer: Builtin.RawPointer {
return Builtin.inttoptr_Word(_startPtrOrData)
}
/// A Boolean value that indicates whether the static string stores a
/// pointer to a null-terminated sequence of UTF-8 code units.
///
/// If `hasPointerRepresentation` is `false`, the static string stores a
/// single Unicode scalar value.
@_transparent
public var hasPointerRepresentation: Bool {
return (UInt8(_flags) & 0x1) == 0
}
/// A Boolean value that indicates whether the static string represents only
/// ASCII code units (or an ASCII scalar value).
@_transparent
public var isASCII: Bool {
return (UInt8(_flags) & 0x2) != 0
}
/// Invokes the given closure with a buffer containing the static string's
/// UTF-8 code unit sequence (excluding the null terminator).
///
/// This method works regardless of whether the static string stores a
/// pointer or a single Unicode scalar value.
///
/// The pointer argument to `body` is valid only during the execution of
/// `withUTF8Buffer(_:)`. Do not store or return the pointer for later use.
///
/// - Parameter body: A closure that takes a buffer pointer to the static
/// string's UTF-8 code unit sequence as its sole argument. If the closure
/// has a return value, that value is also used as the return value of the
/// `withUTF8Buffer(_:)` method. The pointer argument is valid only for the
/// duration of the method's execution.
/// - Returns: The return value, if any, of the `body` closure.
@_transparent
public func withUTF8Buffer<R>(
_ body: (UnsafeBufferPointer<UInt8>) -> R
) -> R {
if hasPointerRepresentation {
return body(UnsafeBufferPointer(
start: utf8Start, count: utf8CodeUnitCount))
} else {
return unicodeScalar.withUTF8CodeUnits { body($0) }
}
}
/// Creates an empty static string.
@_transparent
public init() {
self = ""
}
@usableFromInline @_transparent
internal init(
_start: Builtin.RawPointer,
utf8CodeUnitCount: Builtin.Word,
isASCII: Builtin.Int1
) {
// We don't go through UnsafePointer here to make things simpler for alias
// analysis. A higher-level algorithm may be trying to make sure an
// unrelated buffer is not accessed or freed.
self._startPtrOrData = Builtin.ptrtoint_Word(_start)
self._utf8CodeUnitCount = utf8CodeUnitCount
self._flags = Bool(isASCII)
? (0x2 as UInt8)._value
: (0x0 as UInt8)._value
}
@usableFromInline @_transparent
internal init(
unicodeScalar: Builtin.Int32
) {
self._startPtrOrData = UInt(UInt32(unicodeScalar))._builtinWordValue
self._utf8CodeUnitCount = 0._builtinWordValue
self._flags = Unicode.Scalar(_builtinUnicodeScalarLiteral: unicodeScalar).isASCII
? (0x3 as UInt8)._value
: (0x1 as UInt8)._value
}
}
extension StaticString: _ExpressibleByBuiltinUnicodeScalarLiteral {
@_effects(readonly)
@_transparent
public init(_builtinUnicodeScalarLiteral value: Builtin.Int32) {
self = StaticString(unicodeScalar: value)
}
}
extension StaticString: ExpressibleByUnicodeScalarLiteral {
/// Creates an instance initialized to a single Unicode scalar.
///
/// Do not call this initializer directly. It may be used by the compiler
/// when you initialize a static string with a Unicode scalar.
@_effects(readonly)
@_transparent
public init(unicodeScalarLiteral value: StaticString) {
self = value
}
}
extension StaticString: _ExpressibleByBuiltinExtendedGraphemeClusterLiteral {
@_effects(readonly)
@_transparent
public init(
_builtinExtendedGraphemeClusterLiteral start: Builtin.RawPointer,
utf8CodeUnitCount: Builtin.Word,
isASCII: Builtin.Int1
) {
self = StaticString(
_builtinStringLiteral: start,
utf8CodeUnitCount: utf8CodeUnitCount,
isASCII: isASCII
)
}
}
extension StaticString: ExpressibleByExtendedGraphemeClusterLiteral {
/// Creates an instance initialized to a single character that is made up of
/// one or more Unicode scalar values.
///
/// Do not call this initializer directly. It may be used by the compiler
/// when you initialize a static string using an extended grapheme cluster.
@_effects(readonly)
@_transparent
public init(extendedGraphemeClusterLiteral value: StaticString) {
self = value
}
}
extension StaticString: _ExpressibleByBuiltinStringLiteral {
@_effects(readonly)
@_transparent
public init(
_builtinStringLiteral start: Builtin.RawPointer,
utf8CodeUnitCount: Builtin.Word,
isASCII: Builtin.Int1
) {
self = StaticString(
_start: start,
utf8CodeUnitCount: utf8CodeUnitCount,
isASCII: isASCII)
}
}
extension StaticString: ExpressibleByStringLiteral {
/// Creates an instance initialized to the value of a string literal.
///
/// Do not call this initializer directly. It may be used by the compiler
/// when you initialize a static string using a string literal.
@_effects(readonly)
@_transparent
public init(stringLiteral value: StaticString) {
self = value
}
}
extension StaticString: CustomStringConvertible {
/// A textual representation of the static string.
public var description: String {
return withUTF8Buffer { String._uncheckedFromUTF8($0) }
}
}
extension StaticString: CustomDebugStringConvertible {
/// A textual representation of the static string, suitable for debugging.
public var debugDescription: String {
return self.description.debugDescription
}
}
extension StaticString: CustomReflectable {
public var customMirror: Mirror {
return Mirror(reflecting: description)
}
}
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