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swift-mirror/stdlib/core/StaticString.swift
Doug Gregor 7764f64cf8 Simplify assertion machinery in the standard library. 
This change includes a number of simplifications that allow us to
eliminate the type checker hack that specifically tries
AssertString. Doing so provides a 25% speedup in the
test/stdlib/ArrayNew.swift test (which is type-checker bound).

The specific simplifications here:
  - User-level
  assert/precondition/preconditionalFailure/assertionFailer/fatalError
  always take an autoclosure producing a String, eliminating the need
  for the StaticString/AssertString dance.
  - Standard-library internal _precondition/_sanityCheck/etc. always
  take a StaticString. When we want to improve the diagnostics in the
  standard library, we can provide a separate overload or
  differently-named function.
  - Remove AssertString, AssertStringType, StaticStringType, which are
  no longer used or needed
  - Remove the AssertString hack from the compiler
  - Remove the "BooleanType" overloads of these functions, because
  their usefuless left when we stopped making optional types conform
  to BooleanType (sorry, should have been a separate patch).



Swift SVN r22139
2014-09-19 17:56:50 +00:00

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//===----------------------------------------------------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2015 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See http://swift.org/LICENSE.txt for license information
// See http://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.
/// An extremely simple string designed to represent something
/// "statically knowable".
public struct StaticString
: _BuiltinUnicodeScalarLiteralConvertible,
_BuiltinExtendedGraphemeClusterLiteralConvertible,
_BuiltinStringLiteralConvertible,
UnicodeScalarLiteralConvertible,
ExtendedGraphemeClusterLiteralConvertible,
StringLiteralConvertible,
Printable,
DebugPrintable {
/// Either a pointer to the start of UTF-8 data, or an integer representation
/// of a single Unicode scalar.
var _startPtrOrData: Builtin.RawPointer
/// If `_startPtrOrData` is a pointer, contains the length of the UTF-8 data
/// in bytes.
var _byteSize: 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` is a pointer and string data is
/// ASCII.
var _flags: Builtin.Word
@transparent
public var utf8Start: UnsafePointer<UInt8> {
_precondition(
hasPointerRepresentation,
"StaticString should have pointer representation")
return UnsafePointer(_startPtrOrData)
}
@transparent
public var unicodeScalar: UnicodeScalar {
_precondition(
!hasPointerRepresentation,
"StaticString should have Unicode scalar representation")
return UnicodeScalar(UInt32(unsafeBitCast(_startPtrOrData, UWord.self)))
}
@transparent
public var byteSize: Word {
return Word(_byteSize)
}
@transparent
public var hasPointerRepresentation: Bool {
return (UWord(_flags) & 0x1) == 0
}
@transparent
public var isASCII: Bool {
return (UWord(_flags) & 0x2) == 1
}
public func withUTF8Buffer<R>(body: (UnsafeBufferPointer<UInt8>) -> R) -> R {
if hasPointerRepresentation {
return body(UnsafeBufferPointer(start: utf8Start, count: Int(byteSize)))
} else {
var buffer: UInt64 = 0
var i = 0
var sink = SinkOf<UInt8> {
(byte) in
buffer = buffer | (UInt64(byte) << (UInt64(i) * 8))
++i
}
UTF8.encode(unicodeScalar, output: &sink)
return body(UnsafeBufferPointer(
start: UnsafePointer(Builtin.addressof(&buffer)),
count: i))
}
}
@transparent
public var stringValue: String {
return withUTF8Buffer {
(buffer) in
return String._fromWellFormedCodeUnitSequence(UTF8.self, input: buffer)
}
}
@transparent
public init() {
self = ""
}
@transparent
init(
start: Builtin.RawPointer, byteSize: Builtin.Word, isASCII: Builtin.Int1
) {
self._startPtrOrData = start
self._byteSize = byteSize
self._flags = Bool(isASCII) ? 0x2.value : 0.value
}
@transparent
init(
unicodeScalar: Builtin.Int32
) {
self._startPtrOrData =
unsafeBitCast(UWord(UInt32(unicodeScalar)), COpaquePointer.self).value
self._byteSize = 0.value
self._flags = 0.value
}
@effects(readonly)
@transparent
public init(_builtinUnicodeScalarLiteral value: Builtin.Int32) {
self = StaticString(unicodeScalar: value)
}
@effects(readonly)
@transparent
public init(unicodeScalarLiteral value: StaticString) {
self = value
}
@effects(readonly)
@transparent
public init(
_builtinExtendedGraphemeClusterLiteral start: Builtin.RawPointer,
byteSize: Builtin.Word,
isASCII: Builtin.Int1
) {
self = StaticString(
_builtinStringLiteral: start,
byteSize: byteSize,
isASCII: isASCII
)
}
@effects(readonly)
@transparent
public init(extendedGraphemeClusterLiteral value: StaticString) {
self = value
}
@effects(readonly)
@transparent
public init(
_builtinStringLiteral start: Builtin.RawPointer,
byteSize: Builtin.Word,
isASCII: Builtin.Int1
) {
self = StaticString(start: start, byteSize: byteSize, isASCII: isASCII)
}
@effects(readonly)
@transparent
public init(stringLiteral value: StaticString) {
self = value
}
public var description: String {
return self.stringValue
}
public var debugDescription: String {
return self.stringValue.debugDescription
}
}
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