stdlib/public/core/Bool.swift - third_party/swift - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2017 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
 //
 //===----------------------------------------------------------------------===//
 // Bool Datatype and Supporting Operators
 //===----------------------------------------------------------------------===//

 /// A value type whose instances are either `true` or `false`.
 ///
 /// `Bool` represents Boolean values in Swift. Create instances of `Bool` by
 /// using one of the Boolean literals `true` or `false`, or by assigning the
 /// result of a Boolean method or operation to a variable or constant.
 ///
 ///     var godotHasArrived = false
 ///
 ///     let numbers = 1...5
 ///     let containsTen = numbers.contains(10)
 ///     print(containsTen)
 ///     // Prints "false"
 ///
 ///     let (a, b) = (100, 101)
 ///     let aFirst = a < b
 ///     print(aFirst)
 ///     // Prints "true"
 ///
 /// Swift uses only simple Boolean values in conditional contexts to help avoid
 /// accidental programming errors and to help maintain the clarity of each
 /// control statement. Unlike in other programming languages, in Swift, integers
 /// and strings cannot be used where a Boolean value is required.
 ///
 /// For example, the following code sample does not compile, because it
 /// attempts to use the integer `i` in a logical context:
 ///
 ///     var i = 5
 ///     while i {
 ///         print(i)
 ///         i -= 1
 ///     }
 ///
 /// The correct approach in Swift is to compare the `i` value with zero in the
 /// `while` statement.
 ///
 ///     while i != 0 {
 ///         print(i)
 ///         i -= 1
 ///     }
 ///
 /// Using Imported Boolean values
 /// =============================
 ///
 /// The C `bool` and `Boolean` types and the Objective-C `BOOL` type are all
 /// bridged into Swift as `Bool`. The single `Bool` type in Swift guarantees
 /// that functions, methods, and properties imported from C and Objective-C
 /// have a consistent type interface.
 @_fixed_layout
 public struct Bool {
   @_versioned
   internal var _value: Builtin.Int1

   /// Creates an instance initialized to `false`.
   ///
   /// Do not call this initializer directly. Instead, use the Boolean literal
   /// `false` to create a new `Bool` instance.
   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   public init() {
     let zero: Int8 = 0
     self._value = Builtin.trunc_Int8_Int1(zero._value)
   }

   @_inlineable // FIXME(sil-serialize-all)
   @_versioned
   @_transparent
   internal init(_ v: Builtin.Int1) { self._value = v }

   /// Creates an instance equal to the given Boolean value.
   ///
   /// - Parameter value: The Boolean value to copy.
   @_inlineable // FIXME(sil-serialize-all)
   public init(_ value: Bool) {
     self = value
   }
 }

 extension Bool : _ExpressibleByBuiltinBooleanLiteral, ExpressibleByBooleanLiteral {
   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   public init(_builtinBooleanLiteral value: Builtin.Int1) {
     self._value = value
   }

   /// Creates an instance initialized to the specified Boolean literal.
   ///
   /// Do not call this initializer directly. It is used by the compiler when
   /// you use a Boolean literal. Instead, create a new `Bool` instance by
   /// using one of the Boolean literals `true` or `false`.
   ///
   ///     var printedMessage = false
   ///
   ///     if !printedMessage {
   ///         print("You look nice today!")
   ///         printedMessage = true
   ///     }
   ///     // Prints "You look nice today!"
   ///
   /// In this example, both assignments to the `printedMessage` variable call
   /// this Boolean literal initializer behind the scenes.
   ///
   /// - Parameter value: The value of the new instance.
   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   public init(booleanLiteral value: Bool) {
     self = value
   }
 }

 extension Bool {
   // This is a magic entry point known to the compiler.
   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   public // COMPILER_INTRINSIC
   func _getBuiltinLogicValue() -> Builtin.Int1 {
     return _value
   }
 }

 extension Bool : CustomStringConvertible {
   /// A textual representation of the Boolean value.
   @_inlineable // FIXME(sil-serialize-all)
   public var description: String {
     return self ? "true" : "false"
   }
 }

 // This is a magic entry point known to the compiler.
 @_inlineable // FIXME(sil-serialize-all)
 @_transparent
 public // COMPILER_INTRINSIC
 func _getBool(_ v: Builtin.Int1) -> Bool { return Bool(v) }

 extension Bool : Equatable, Hashable {
   /// The hash value for the Boolean value.
   ///
   /// Two values that are equal always have equal hash values.
   ///
   /// - Note: The hash value is not guaranteed to be stable across different
   ///   invocations of the same program. Do not persist the hash value across
   ///   program runs.
   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   public var hashValue: Int {
     return self ? 1 : 0
   }

   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   public static func == (lhs: Bool, rhs: Bool) -> Bool {
     return Bool(Builtin.cmp_eq_Int1(lhs._value, rhs._value))
   }
 }

 extension Bool : LosslessStringConvertible {
   /// Creates a new Boolean value from the given string.
   ///
   /// If the `description` value is any string other than `"true"` or
   /// `"false"`, the result is `nil`. This initializer is case sensitive.
   ///
   /// - Parameter description: A string representation of the Boolean value.
   @_inlineable // FIXME(sil-serialize-all)
   public init?(_ description: String) {
     if description == "true" {
       self = true
     } else if description == "false" {
       self = false
     } else {
       return nil
     }
   }
 }

 //===----------------------------------------------------------------------===//
 // Operators
 //===----------------------------------------------------------------------===//

 extension Bool {
   /// Performs a logical NOT operation on a Boolean value.
   ///
   /// The logical NOT operator (`!`) inverts a Boolean value. If the value is
   /// `true`, the result of the operation is `false`; if the value is `false`,
   /// the result is `true`.
   ///
   ///     var printedMessage = false
   ///
   ///     if !printedMessage {
   ///         print("You look nice today!")
   ///         printedMessage = true
   ///     }
   ///     // Prints "You look nice today!"
   ///
   /// - Parameter a: The Boolean value to negate.
   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   public static prefix func ! (a: Bool) -> Bool {
     return Bool(Builtin.xor_Int1(a._value, true._value))
   }
 }

 extension Bool {
   /// Performs a logical AND operation on two Boolean values.
   ///
   /// The logical AND operator (`&&`) combines two Boolean values and returns
   /// `true` if both of the values are `true`. If either of the values is
   /// `false`, the operator returns `false`.
   ///
   /// This operator uses short-circuit evaluation: The left-hand side (`lhs`) is
   /// evaluated first, and the right-hand side (`rhs`) is evaluated only if
   /// `lhs` evaluates to `true`. For example:
   ///
   ///     let measurements = [7.44, 6.51, 4.74, 5.88, 6.27, 6.12, 7.76]
   ///     let sum = measurements.reduce(0, combine: +)
   ///
   ///     if measurements.count > 0 && sum / Double(measurements.count) < 6.5 {
   ///         print("Average measurement is less than 6.5")
   ///     }
   ///     // Prints "Average measurement is less than 6.5"
   ///
   /// In this example, `lhs` tests whether `measurements.count` is greater than
   /// zero. Evaluation of the `&&` operator is one of the following:
   ///
   /// - When `measurements.count` is equal to zero, `lhs` evaluates to `false`
   ///   and `rhs` is not evaluated, preventing a divide-by-zero error in the
   ///   expression `sum / Double(measurements.count)`. The result of the
   ///   operation is `false`.
   /// - When `measurements.count` is greater than zero, `lhs` evaluates to
   ///   `true` and `rhs` is evaluated. The result of evaluating `rhs` is the
   ///   result of the `&&` operation.
   ///
   /// - Parameters:
   ///   - lhs: The left-hand side of the operation.
   ///   - rhs: The right-hand side of the operation.
   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   @inline(__always)
   public static func && (lhs: Bool, rhs: @autoclosure () throws -> Bool) rethrows
       -> Bool {
     return lhs ? try rhs() : false
   }

   /// Performs a logical OR operation on two Boolean values.
   ///
   /// The logical OR operator (`||`) combines two Boolean values and returns
   /// `true` if at least one of the values is `true`. If both values are
   /// `false`, the operator returns `false`.
   ///
   /// This operator uses short-circuit evaluation: The left-hand side (`lhs`) is
   /// evaluated first, and the right-hand side (`rhs`) is evaluated only if
   /// `lhs` evaluates to `false`. For example:
   ///
   ///     let majorErrors: Set = ["No first name", "No last name", ...]
   ///     let error = ""
   ///
   ///     if error.isEmpty || !majorErrors.contains(error) {
   ///         print("No major errors detected")
   ///     } else {
   ///         print("Major error: \(error)")
   ///     }
   ///     // Prints "No major errors detected"
   ///
   /// In this example, `lhs` tests whether `error` is an empty string.
   /// Evaluation of the `||` operator is one of the following:
   ///
   /// - When `error` is an empty string, `lhs` evaluates to `true` and `rhs` is
   ///   not evaluated, skipping the call to `majorErrors.contains(_:)`. The
   ///   result of the operation is `true`.
   /// - When `error` is not an empty string, `lhs` evaluates to `false` and
   ///   `rhs` is evaluated. The result of evaluating `rhs` is the result of the
   ///   `||` operation.
   ///
   /// - Parameters:
   ///   - lhs: The left-hand side of the operation.
   ///   - rhs: The right-hand side of the operation.
   @_inlineable // FIXME(sil-serialize-all)
   @_transparent
   @inline(__always)
   public static func || (lhs: Bool, rhs: @autoclosure () throws -> Bool) rethrows
       -> Bool {
     return lhs ? true : try rhs()
   }
 }
	//===----------------------------------------------------------------------===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2017 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
	//
	//===----------------------------------------------------------------------===//
	// Bool Datatype and Supporting Operators
	//===----------------------------------------------------------------------===//

	/// A value type whose instances are either `true` or `false`.
	///
	/// `Bool` represents Boolean values in Swift. Create instances of `Bool` by
	/// using one of the Boolean literals `true` or `false`, or by assigning the
	/// result of a Boolean method or operation to a variable or constant.
	///
	/// var godotHasArrived = false
	///
	/// let numbers = 1...5
	/// let containsTen = numbers.contains(10)
	/// print(containsTen)
	/// // Prints "false"
	///
	/// let (a, b) = (100, 101)
	/// let aFirst = a < b
	/// print(aFirst)
	/// // Prints "true"
	///
	/// Swift uses only simple Boolean values in conditional contexts to help avoid
	/// accidental programming errors and to help maintain the clarity of each
	/// control statement. Unlike in other programming languages, in Swift, integers
	/// and strings cannot be used where a Boolean value is required.
	///
	/// For example, the following code sample does not compile, because it
	/// attempts to use the integer `i` in a logical context:
	///
	/// var i = 5
	/// while i {
	/// print(i)
	/// i -= 1
	/// }
	///
	/// The correct approach in Swift is to compare the `i` value with zero in the
	/// `while` statement.
	///
	/// while i != 0 {
	/// print(i)
	/// i -= 1
	/// }
	///
	/// Using Imported Boolean values
	/// =============================
	///
	/// The C `bool` and `Boolean` types and the Objective-C `BOOL` type are all
	/// bridged into Swift as `Bool`. The single `Bool` type in Swift guarantees
	/// that functions, methods, and properties imported from C and Objective-C
	/// have a consistent type interface.
	@_fixed_layout
	public struct Bool {
	@_versioned
	internal var _value: Builtin.Int1

	/// Creates an instance initialized to `false`.
	///
	/// Do not call this initializer directly. Instead, use the Boolean literal
	/// `false` to create a new `Bool` instance.
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	public init() {
	let zero: Int8 = 0
	self._value = Builtin.trunc_Int8_Int1(zero._value)
	}

	@_inlineable // FIXME(sil-serialize-all)
	@_versioned
	@_transparent
	internal init(_ v: Builtin.Int1) { self._value = v }

	/// Creates an instance equal to the given Boolean value.
	///
	/// - Parameter value: The Boolean value to copy.
	@_inlineable // FIXME(sil-serialize-all)
	public init(_ value: Bool) {
	self = value
	}
	}

	extension Bool : _ExpressibleByBuiltinBooleanLiteral, ExpressibleByBooleanLiteral {
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	public init(_builtinBooleanLiteral value: Builtin.Int1) {
	self._value = value
	}

	/// Creates an instance initialized to the specified Boolean literal.
	///
	/// Do not call this initializer directly. It is used by the compiler when
	/// you use a Boolean literal. Instead, create a new `Bool` instance by
	/// using one of the Boolean literals `true` or `false`.
	///
	/// var printedMessage = false
	///
	/// if !printedMessage {
	/// print("You look nice today!")
	/// printedMessage = true
	/// }
	/// // Prints "You look nice today!"
	///
	/// In this example, both assignments to the `printedMessage` variable call
	/// this Boolean literal initializer behind the scenes.
	///
	/// - Parameter value: The value of the new instance.
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	public init(booleanLiteral value: Bool) {
	self = value
	}
	}

	extension Bool {
	// This is a magic entry point known to the compiler.
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	public // COMPILER_INTRINSIC
	func _getBuiltinLogicValue() -> Builtin.Int1 {
	return _value
	}
	}

	extension Bool : CustomStringConvertible {
	/// A textual representation of the Boolean value.
	@_inlineable // FIXME(sil-serialize-all)
	public var description: String {
	return self ? "true" : "false"
	}
	}

	// This is a magic entry point known to the compiler.
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	public // COMPILER_INTRINSIC
	func _getBool(_ v: Builtin.Int1) -> Bool { return Bool(v) }

	extension Bool : Equatable, Hashable {
	/// The hash value for the Boolean value.
	///
	/// Two values that are equal always have equal hash values.
	///
	/// - Note: The hash value is not guaranteed to be stable across different
	/// invocations of the same program. Do not persist the hash value across
	/// program runs.
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	public var hashValue: Int {
	return self ? 1 : 0
	}

	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	public static func == (lhs: Bool, rhs: Bool) -> Bool {
	return Bool(Builtin.cmp_eq_Int1(lhs._value, rhs._value))
	}
	}

	extension Bool : LosslessStringConvertible {
	/// Creates a new Boolean value from the given string.
	///
	/// If the `description` value is any string other than `"true"` or
	/// `"false"`, the result is `nil`. This initializer is case sensitive.
	///
	/// - Parameter description: A string representation of the Boolean value.
	@_inlineable // FIXME(sil-serialize-all)
	public init?(_ description: String) {
	if description == "true" {
	self = true
	} else if description == "false" {
	self = false
	} else {
	return nil
	}
	}
	}

	//===----------------------------------------------------------------------===//
	// Operators
	//===----------------------------------------------------------------------===//

	extension Bool {
	/// Performs a logical NOT operation on a Boolean value.
	///
	/// The logical NOT operator (`!`) inverts a Boolean value. If the value is
	/// `true`, the result of the operation is `false`; if the value is `false`,
	/// the result is `true`.
	///
	/// var printedMessage = false
	///
	/// if !printedMessage {
	/// print("You look nice today!")
	/// printedMessage = true
	/// }
	/// // Prints "You look nice today!"
	///
	/// - Parameter a: The Boolean value to negate.
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	public static prefix func ! (a: Bool) -> Bool {
	return Bool(Builtin.xor_Int1(a._value, true._value))
	}
	}

	extension Bool {
	/// Performs a logical AND operation on two Boolean values.
	///
	/// The logical AND operator (`&&`) combines two Boolean values and returns
	/// `true` if both of the values are `true`. If either of the values is
	/// `false`, the operator returns `false`.
	///
	/// This operator uses short-circuit evaluation: The left-hand side (`lhs`) is
	/// evaluated first, and the right-hand side (`rhs`) is evaluated only if
	/// `lhs` evaluates to `true`. For example:
	///
	/// let measurements = [7.44, 6.51, 4.74, 5.88, 6.27, 6.12, 7.76]
	/// let sum = measurements.reduce(0, combine: +)
	///
	/// if measurements.count > 0 && sum / Double(measurements.count) < 6.5 {
	/// print("Average measurement is less than 6.5")
	/// }
	/// // Prints "Average measurement is less than 6.5"
	///
	/// In this example, `lhs` tests whether `measurements.count` is greater than
	/// zero. Evaluation of the `&&` operator is one of the following:
	///
	/// - When `measurements.count` is equal to zero, `lhs` evaluates to `false`
	/// and `rhs` is not evaluated, preventing a divide-by-zero error in the
	/// expression `sum / Double(measurements.count)`. The result of the
	/// operation is `false`.
	/// - When `measurements.count` is greater than zero, `lhs` evaluates to
	/// `true` and `rhs` is evaluated. The result of evaluating `rhs` is the
	/// result of the `&&` operation.
	///
	/// - Parameters:
	/// - lhs: The left-hand side of the operation.
	/// - rhs: The right-hand side of the operation.
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	@inline(__always)
	public static func && (lhs: Bool, rhs: @autoclosure () throws -> Bool) rethrows
	-> Bool {
	return lhs ? try rhs() : false
	}

	/// Performs a logical OR operation on two Boolean values.
	///
	/// The logical OR operator (`\|\|`) combines two Boolean values and returns
	/// `true` if at least one of the values is `true`. If both values are
	/// `false`, the operator returns `false`.
	///
	/// This operator uses short-circuit evaluation: The left-hand side (`lhs`) is
	/// evaluated first, and the right-hand side (`rhs`) is evaluated only if
	/// `lhs` evaluates to `false`. For example:
	///
	/// let majorErrors: Set = ["No first name", "No last name", ...]
	/// let error = ""
	///
	/// if error.isEmpty \|\| !majorErrors.contains(error) {
	/// print("No major errors detected")
	/// } else {
	/// print("Major error: \(error)")
	/// }
	/// // Prints "No major errors detected"
	///
	/// In this example, `lhs` tests whether `error` is an empty string.
	/// Evaluation of the `\|\|` operator is one of the following:
	///
	/// - When `error` is an empty string, `lhs` evaluates to `true` and `rhs` is
	/// not evaluated, skipping the call to `majorErrors.contains(_:)`. The
	/// result of the operation is `true`.
	/// - When `error` is not an empty string, `lhs` evaluates to `false` and
	/// `rhs` is evaluated. The result of evaluating `rhs` is the result of the
	/// `\|\|` operation.
	///
	/// - Parameters:
	/// - lhs: The left-hand side of the operation.
	/// - rhs: The right-hand side of the operation.
	@_inlineable // FIXME(sil-serialize-all)
	@_transparent
	@inline(__always)
	public static func \|\| (lhs: Bool, rhs: @autoclosure () throws -> Bool) rethrows
	-> Bool {
	return lhs ? true : try rhs()
	}
	}