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//===----------------------------------------------------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2018 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
//
//===----------------------------------------------------------------------===//
#if canImport(Darwin)
import Darwin
#elseif canImport(Glibc)
import Glibc
#elseif canImport(Musl)
import Musl
#elseif canImport(ucrt)
import ucrt
#elseif canImport(WASILibc)
import WASILibc
#endif
//===--- DataProtocol -----------------------------------------------------===//
@available(macOS 10.10, iOS 8.0, watchOS 2.0, tvOS 9.0, *)
public protocol DataProtocol : RandomAccessCollection where Element == UInt8, SubSequence : DataProtocol {
// FIXME: Remove in favor of opaque type on `regions`.
associatedtype Regions: BidirectionalCollection where Regions.Element : DataProtocol & ContiguousBytes, Regions.Element.SubSequence : ContiguousBytes
/// A `BidirectionalCollection` of `DataProtocol` elements which compose a
/// discontiguous buffer of memory. Each region is a contiguous buffer of
/// bytes.
///
/// The sum of the lengths of the associated regions must equal `self.count`
/// (such that iterating `regions` and iterating `self` produces the same
/// sequence of indices in the same number of index advancements).
var regions: Regions { get }
/// Returns the first found range of the given data buffer.
///
/// A default implementation is given in terms of `self.regions`.
func firstRange<D: DataProtocol, R: RangeExpression>(of: D, in: R) -> Range<Index>? where R.Bound == Index
/// Returns the last found range of the given data buffer.
///
/// A default implementation is given in terms of `self.regions`.
func lastRange<D: DataProtocol, R: RangeExpression>(of: D, in: R) -> Range<Index>? where R.Bound == Index
/// Copies `count` bytes from the start of the buffer to the destination
/// buffer.
///
/// A default implementation is given in terms of `copyBytes(to:from:)`.
@discardableResult
func copyBytes(to: UnsafeMutableRawBufferPointer, count: Int) -> Int
/// Copies `count` bytes from the start of the buffer to the destination
/// buffer.
///
/// A default implementation is given in terms of `copyBytes(to:from:)`.
@discardableResult
func copyBytes<DestinationType>(to: UnsafeMutableBufferPointer<DestinationType>, count: Int) -> Int
/// Copies the bytes from the given range to the destination buffer.
///
/// A default implementation is given in terms of `self.regions`.
@discardableResult
func copyBytes<R: RangeExpression>(to: UnsafeMutableRawBufferPointer, from: R) -> Int where R.Bound == Index
/// Copies the bytes from the given range to the destination buffer.
///
/// A default implementation is given in terms of `self.regions`.
@discardableResult
func copyBytes<DestinationType, R: RangeExpression>(to: UnsafeMutableBufferPointer<DestinationType>, from: R) -> Int where R.Bound == Index
}
//===--- MutableDataProtocol ----------------------------------------------===//
@available(macOS 10.10, iOS 8.0, watchOS 2.0, tvOS 9.0, *)
public protocol MutableDataProtocol : DataProtocol, MutableCollection, RangeReplaceableCollection {
/// Replaces the contents of the buffer at the given range with zeroes.
///
/// A default implementation is given in terms of
/// `replaceSubrange(_:with:)`.
mutating func resetBytes<R: RangeExpression>(in range: R) where R.Bound == Index
}
//===--- DataProtocol Extensions ------------------------------------------===//
@available(macOS 10.10, iOS 8.0, watchOS 2.0, tvOS 9.0, *)
extension DataProtocol {
public func firstRange<D: DataProtocol>(of data: D) -> Range<Index>? {
return self.firstRange(of: data, in: self.startIndex ..< self.endIndex)
}
public func lastRange<D: DataProtocol>(of data: D) -> Range<Index>? {
return self.lastRange(of: data, in: self.startIndex ..< self.endIndex)
}
@discardableResult
public func copyBytes(to ptr: UnsafeMutableRawBufferPointer) -> Int {
return copyBytes(to: ptr, from: self.startIndex ..< self.endIndex)
}
@discardableResult
public func copyBytes<DestinationType>(to ptr: UnsafeMutableBufferPointer<DestinationType>) -> Int {
return copyBytes(to: ptr, from: self.startIndex ..< self.endIndex)
}
@discardableResult
public func copyBytes(to ptr: UnsafeMutableRawBufferPointer, count: Int) -> Int {
return copyBytes(to: ptr, from: self.startIndex ..< self.index(self.startIndex, offsetBy: count))
}
@discardableResult
public func copyBytes<DestinationType>(to ptr: UnsafeMutableBufferPointer<DestinationType>, count: Int) -> Int {
return copyBytes(to: ptr, from: self.startIndex ..< self.index(self.startIndex, offsetBy: count))
}
@discardableResult
public func copyBytes<R: RangeExpression>(to ptr: UnsafeMutableRawBufferPointer, from range: R) -> Int where R.Bound == Index {
precondition(ptr.baseAddress != nil)
let concreteRange = range.relative(to: self)
let slice = self[concreteRange]
// The type isn't contiguous, so we need to copy one region at a time.
var offset = 0
let rangeCount = distance(from: concreteRange.lowerBound, to: concreteRange.upperBound)
var amountToCopy = Swift.min(ptr.count, rangeCount)
for region in slice.regions {
guard amountToCopy > 0 else {
break
}
region.withUnsafeBytes { buffer in
let offsetPtr = UnsafeMutableRawBufferPointer(rebasing: ptr[offset...])
let buf = UnsafeRawBufferPointer(start: buffer.baseAddress, count: Swift.min(buffer.count, amountToCopy))
offsetPtr.copyMemory(from: buf)
offset += buf.count
amountToCopy -= buf.count
}
}
return offset
}
@discardableResult
public func copyBytes<DestinationType, R: RangeExpression>(to ptr: UnsafeMutableBufferPointer<DestinationType>, from range: R) -> Int where R.Bound == Index {
return self.copyBytes(to: UnsafeMutableRawBufferPointer(start: ptr.baseAddress, count: ptr.count * MemoryLayout<DestinationType>.stride), from: range)
}
private func matches<D: DataProtocol>(_ data: D, from index: Index) -> Bool {
var haystackIndex = index
var needleIndex = data.startIndex
while true {
guard self[haystackIndex] == data[needleIndex] else { return false }
haystackIndex = self.index(after: haystackIndex)
needleIndex = data.index(after: needleIndex)
if needleIndex == data.endIndex {
// i.e. needle is found.
return true
} else if haystackIndex == endIndex {
return false
}
}
}
public func firstRange<D: DataProtocol, R: RangeExpression>(of data: D, in range: R) -> Range<Index>? where R.Bound == Index {
let r = range.relative(to: self)
let length = data.count
if length == 0 || length > distance(from: r.lowerBound, to: r.upperBound) {
return nil
}
var position = r.lowerBound
while position < r.upperBound && distance(from: position, to: r.upperBound) >= length {
if matches(data, from: position) {
return position..<index(position, offsetBy: length)
}
position = index(after: position)
}
return nil
}
public func lastRange<D: DataProtocol, R: RangeExpression>(of data: D, in range: R) -> Range<Index>? where R.Bound == Index {
let r = range.relative(to: self)
let length = data.count
if length == 0 || length > distance(from: r.lowerBound, to: r.upperBound) {
return nil
}
var position = index(r.upperBound, offsetBy: -length)
while position >= r.lowerBound {
if matches(data, from: position) {
return position..<index(position, offsetBy: length)
}
position = index(before: position)
}
return nil
}
}
@available(macOS 10.10, iOS 8.0, watchOS 2.0, tvOS 9.0, *)
extension DataProtocol where Self : ContiguousBytes {
public func copyBytes<DestinationType, R: RangeExpression>(to ptr: UnsafeMutableBufferPointer<DestinationType>, from range: R) where R.Bound == Index {
precondition(ptr.baseAddress != nil)
let concreteRange = range.relative(to: self)
withUnsafeBytes { fullBuffer in
let adv = distance(from: startIndex, to: concreteRange.lowerBound)
let delta = distance(from: concreteRange.lowerBound, to: concreteRange.upperBound)
_ = memcpy(ptr.baseAddress!, fullBuffer.baseAddress!.advanced(by: adv), delta)
}
}
}
//===--- MutableDataProtocol Extensions -----------------------------------===//
@available(macOS 10.10, iOS 8.0, watchOS 2.0, tvOS 9.0, *)
extension MutableDataProtocol {
public mutating func resetBytes<R: RangeExpression>(in range: R) where R.Bound == Index {
let r = range.relative(to: self)
let count = distance(from: r.lowerBound, to: r.upperBound)
replaceSubrange(r, with: repeatElement(UInt8(0), count: count))
}
}
//===--- DataProtocol Conditional Conformances ----------------------------===//
@available(macOS 10.10, iOS 8.0, watchOS 2.0, tvOS 9.0, *)
extension Slice : DataProtocol where Base : DataProtocol {
public typealias Regions = [Base.Regions.Element.SubSequence]
public var regions: [Base.Regions.Element.SubSequence] {
let sliceLowerBound = startIndex
let sliceUpperBound = endIndex
var regionUpperBound = base.startIndex
return base.regions.compactMap { (region) -> Base.Regions.Element.SubSequence? in
let regionLowerBound = regionUpperBound
regionUpperBound = base.index(regionUpperBound, offsetBy: region.count)
/*
[------ Region ------]
[--- Slice ---] =>
OR
[------ Region ------]
<= [--- Slice ---]
*/
if sliceLowerBound >= regionLowerBound && sliceUpperBound <= regionUpperBound {
let regionRelativeSliceLowerBound = region.index(region.startIndex, offsetBy: base.distance(from: regionLowerBound, to: sliceLowerBound))
let regionRelativeSliceUpperBound = region.index(region.startIndex, offsetBy: base.distance(from: regionLowerBound, to: sliceUpperBound))
return region[regionRelativeSliceLowerBound..<regionRelativeSliceUpperBound]
}
/*
[--- Region ---] =>
[------ Slice ------]
OR
<= [--- Region ---]
[------ Slice ------]
*/
if regionLowerBound >= sliceLowerBound && regionUpperBound <= sliceUpperBound {
return region[region.startIndex..<region.endIndex]
}
/*
[------ Region ------]
[------ Slice ------]
*/
if sliceLowerBound >= regionLowerBound && sliceLowerBound <= regionUpperBound {
let regionRelativeSliceLowerBound = region.index(region.startIndex, offsetBy: base.distance(from: regionLowerBound, to: sliceLowerBound))
return region[regionRelativeSliceLowerBound..<region.endIndex]
}
/*
[------ Region ------]
[------ Slice ------]
*/
if regionLowerBound >= sliceLowerBound && regionLowerBound <= sliceUpperBound {
let regionRelativeSliceUpperBound = region.index(region.startIndex, offsetBy: base.distance(from: regionLowerBound, to: sliceUpperBound))
return region[region.startIndex..<regionRelativeSliceUpperBound]
}
/*
[--- Region ---]
[--- Slice ---]
OR
[--- Region ---]
[--- Slice ---]
*/
return nil
}
}
}
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