stdlib/public/core/AssertCommon.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
 //
 //===----------------------------------------------------------------------===//

 import SwiftShims

 // Implementation Note: this file intentionally uses very LOW-LEVEL
 // CONSTRUCTS, so that assert and fatal may be used liberally in
 // building library abstractions without fear of infinite recursion.
 //
 // FIXME: We could go farther with this simplification, e.g. avoiding
 // UnsafeMutablePointer

 @_transparent
 public // @testable
 func _isDebugAssertConfiguration() -> Bool {
   // The values for the assert_configuration call are:
   // 0: Debug
   // 1: Release
   // 2: Fast
   return Int32(Builtin.assert_configuration()) == 0
 }

 @usableFromInline @_transparent
 internal func _isReleaseAssertConfiguration() -> Bool {
   // The values for the assert_configuration call are:
   // 0: Debug
   // 1: Release
   // 2: Fast
   return Int32(Builtin.assert_configuration()) == 1
 }

 @_transparent
 public // @testable
 func _isFastAssertConfiguration() -> Bool {
   // The values for the assert_configuration call are:
   // 0: Debug
   // 1: Release
   // 2: Fast
   return Int32(Builtin.assert_configuration()) == 2
 }

 @_transparent
 public // @testable
 func _isStdlibInternalChecksEnabled() -> Bool {
 #if INTERNAL_CHECKS_ENABLED
   return true
 #else
   return false
 #endif
 }

 @usableFromInline @_transparent
 internal
 func _fatalErrorFlags() -> UInt32 {
   // The current flags are:
   // (1 << 0): Report backtrace on fatal error
 #if os(iOS) || os(tvOS) || os(watchOS)
   return 0
 #else
   return _isDebugAssertConfiguration() ? 1 : 0
 #endif
 }

 /// This function should be used only in the implementation of user-level
 /// assertions.
 ///
 /// This function should not be inlined because it is cold and inlining just
 /// bloats code.
 @usableFromInline // FIXME(sil-serialize-all)
 @inline(never)
 internal func _assertionFailure(
   _ prefix: StaticString, _ message: StaticString,
   file: StaticString, line: UInt,
   flags: UInt32
 ) -> Never {
   prefix.withUTF8Buffer {
     (prefix) -> Void in
     message.withUTF8Buffer {
       (message) -> Void in
       file.withUTF8Buffer {
         (file) -> Void in
         _swift_stdlib_reportFatalErrorInFile(
           prefix.baseAddress!, CInt(prefix.count),
           message.baseAddress!, CInt(message.count),
           file.baseAddress!, CInt(file.count), UInt32(line),
           flags)
         Builtin.int_trap()
       }
     }
   }
   Builtin.int_trap()
 }

 /// This function should be used only in the implementation of user-level
 /// assertions.
 ///
 /// This function should not be inlined because it is cold and inlining just
 /// bloats code.
 @usableFromInline // FIXME(sil-serialize-all)
 @inline(never)
 internal func _assertionFailure(
   _ prefix: StaticString, _ message: String,
   file: StaticString, line: UInt,
   flags: UInt32
 ) -> Never {
   prefix.withUTF8Buffer {
     (prefix) -> Void in
     message._withUnsafeBufferPointerToUTF8 {
       (messageUTF8) -> Void in
       file.withUTF8Buffer {
         (file) -> Void in
         _swift_stdlib_reportFatalErrorInFile(
           prefix.baseAddress!, CInt(prefix.count),
           messageUTF8.baseAddress!, CInt(messageUTF8.count),
           file.baseAddress!, CInt(file.count), UInt32(line),
           flags)
       }
     }
   }

   Builtin.int_trap()
 }

 /// This function should be used only in the implementation of user-level
 /// assertions.
 ///
 /// This function should not be inlined because it is cold and inlining just
 /// bloats code.
 @usableFromInline // FIXME(sil-serialize-all)
 @inline(never)
 internal func _assertionFailure(
   _ prefix: StaticString, _ message: String,
   flags: UInt32
 ) -> Never {
   prefix.withUTF8Buffer {
     (prefix) -> Void in
     message._withUnsafeBufferPointerToUTF8 {
       (messageUTF8) -> Void in
       _swift_stdlib_reportFatalError(
         prefix.baseAddress!, CInt(prefix.count),
         messageUTF8.baseAddress!, CInt(messageUTF8.count),
         flags)
     }
   }

   Builtin.int_trap()
 }

 /// This function should be used only in the implementation of stdlib
 /// assertions.
 ///
 /// This function should not be inlined because it is cold and it inlining just
 /// bloats code.
 @usableFromInline // FIXME(sil-serialize-all)
 @inline(never)
 @_semantics("arc.programtermination_point")
 internal func _fatalErrorMessage(
   _ prefix: StaticString, _ message: StaticString,
   file: StaticString, line: UInt,
   flags: UInt32
 ) -> Never {
 #if INTERNAL_CHECKS_ENABLED
   prefix.withUTF8Buffer {
     (prefix) in
     message.withUTF8Buffer {
       (message) in
       file.withUTF8Buffer {
         (file) in
         _swift_stdlib_reportFatalErrorInFile(
           prefix.baseAddress!, CInt(prefix.count),
           message.baseAddress!, CInt(message.count),
           file.baseAddress!, CInt(file.count), UInt32(line),
           flags)
       }
     }
   }
 #else
   prefix.withUTF8Buffer {
     (prefix) in
     message.withUTF8Buffer {
       (message) in
       _swift_stdlib_reportFatalError(
         prefix.baseAddress!, CInt(prefix.count),
         message.baseAddress!, CInt(message.count),
         flags)
     }
   }
 #endif

   Builtin.int_trap()
 }

 /// Prints a fatal error message when an unimplemented initializer gets
 /// called by the Objective-C runtime.
 @_transparent
 public // COMPILER_INTRINSIC
 func _unimplementedInitializer(className: StaticString,
                                initName: StaticString = #function,
                                file: StaticString = #file,
                                line: UInt = #line,
                                column: UInt = #column
 ) -> Never {
   // This function is marked @_transparent so that it is inlined into the caller
   // (the initializer stub), and, depending on the build configuration,
   // redundant parameter values (#file etc.) are eliminated, and don't leak
   // information about the user's source.

   if _isDebugAssertConfiguration() {
     className.withUTF8Buffer {
       (className) in
       initName.withUTF8Buffer {
         (initName) in
         file.withUTF8Buffer {
           (file) in
           _swift_stdlib_reportUnimplementedInitializerInFile(
             className.baseAddress!, CInt(className.count),
             initName.baseAddress!, CInt(initName.count),
             file.baseAddress!, CInt(file.count),
             UInt32(line), UInt32(column),
             /*flags:*/ 0)
         }
       }
     }
   } else {
     className.withUTF8Buffer {
       (className) in
       initName.withUTF8Buffer {
         (initName) in
         _swift_stdlib_reportUnimplementedInitializer(
           className.baseAddress!, CInt(className.count),
           initName.baseAddress!, CInt(initName.count),
           /*flags:*/ 0)
       }
     }
   }

   Builtin.int_trap()
 }

 // FIXME(ABI)#21 (Type Checker): rename to something descriptive.
 @inlinable // FIXME(sil-serialize-all)
 public // COMPILER_INTRINSIC
 func _undefined<T>(
   _ message: @autoclosure () -> String = String(),
   file: StaticString = #file, line: UInt = #line
 ) -> T {
   _assertionFailure("Fatal error", message(), file: file, line: line, flags: 0)
 }

 /// Called when falling off the end of a switch and the type can be represented
 /// as a raw value.
 ///
 /// This function should not be inlined because it is cold and inlining just
 /// bloats code. It doesn't take a source location because it's most important
 /// in release builds anyway (old apps that are run on new OSs).
 @inline(never)
 @usableFromInline // COMPILER_INTRINSIC
 internal func _diagnoseUnexpectedEnumCaseValue<SwitchedValue, RawValue>(
   type: SwitchedValue.Type,
   rawValue: RawValue
 ) -> Never {
   _assertionFailure("Fatal error",
                     "unexpected enum case '\(type)(rawValue: \(rawValue))'",
                     flags: _fatalErrorFlags())
 }

 /// Called when falling off the end of a switch and the value is not safe to
 /// print.
 ///
 /// This function should not be inlined because it is cold and inlining just
 /// bloats code. It doesn't take a source location because it's most important
 /// in release builds anyway (old apps that are run on new OSs).
 @inline(never)
 @usableFromInline // COMPILER_INTRINSIC
 internal func _diagnoseUnexpectedEnumCase<SwitchedValue>(
   type: SwitchedValue.Type
 ) -> Never {
   _assertionFailure(
     "Fatal error",
     "unexpected enum case while switching on value of type '\(type)'",
     flags: _fatalErrorFlags())
 }
	//===----------------------------------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	import SwiftShims

	// Implementation Note: this file intentionally uses very LOW-LEVEL
	// CONSTRUCTS, so that assert and fatal may be used liberally in
	// building library abstractions without fear of infinite recursion.
	//
	// FIXME: We could go farther with this simplification, e.g. avoiding
	// UnsafeMutablePointer

	@_transparent
	public // @testable
	func _isDebugAssertConfiguration() -> Bool {
	// The values for the assert_configuration call are:
	// 0: Debug
	// 1: Release
	// 2: Fast
	return Int32(Builtin.assert_configuration()) == 0
	}

	@usableFromInline @_transparent
	internal func _isReleaseAssertConfiguration() -> Bool {
	// The values for the assert_configuration call are:
	// 0: Debug
	// 1: Release
	// 2: Fast
	return Int32(Builtin.assert_configuration()) == 1
	}

	@_transparent
	public // @testable
	func _isFastAssertConfiguration() -> Bool {
	// The values for the assert_configuration call are:
	// 0: Debug
	// 1: Release
	// 2: Fast
	return Int32(Builtin.assert_configuration()) == 2
	}

	@_transparent
	public // @testable
	func _isStdlibInternalChecksEnabled() -> Bool {
	#if INTERNAL_CHECKS_ENABLED
	return true
	#else
	return false
	#endif
	}

	@usableFromInline @_transparent
	internal
	func _fatalErrorFlags() -> UInt32 {
	// The current flags are:
	// (1 << 0): Report backtrace on fatal error
	#if os(iOS) \|\| os(tvOS) \|\| os(watchOS)
	return 0
	#else
	return _isDebugAssertConfiguration() ? 1 : 0
	#endif
	}

	/// This function should be used only in the implementation of user-level
	/// assertions.
	///
	/// This function should not be inlined because it is cold and inlining just
	/// bloats code.
	@usableFromInline // FIXME(sil-serialize-all)
	@inline(never)
	internal func _assertionFailure(
	_ prefix: StaticString, _ message: StaticString,
	file: StaticString, line: UInt,
	flags: UInt32
	) -> Never {
	prefix.withUTF8Buffer {
	(prefix) -> Void in
	message.withUTF8Buffer {
	(message) -> Void in
	file.withUTF8Buffer {
	(file) -> Void in
	_swift_stdlib_reportFatalErrorInFile(
	prefix.baseAddress!, CInt(prefix.count),
	message.baseAddress!, CInt(message.count),
	file.baseAddress!, CInt(file.count), UInt32(line),
	flags)
	Builtin.int_trap()
	}
	}
	}
	Builtin.int_trap()
	}

	/// This function should be used only in the implementation of user-level
	/// assertions.
	///
	/// This function should not be inlined because it is cold and inlining just
	/// bloats code.
	@usableFromInline // FIXME(sil-serialize-all)
	@inline(never)
	internal func _assertionFailure(
	_ prefix: StaticString, _ message: String,
	file: StaticString, line: UInt,
	flags: UInt32
	) -> Never {
	prefix.withUTF8Buffer {
	(prefix) -> Void in
	message._withUnsafeBufferPointerToUTF8 {
	(messageUTF8) -> Void in
	file.withUTF8Buffer {
	(file) -> Void in
	_swift_stdlib_reportFatalErrorInFile(
	prefix.baseAddress!, CInt(prefix.count),
	messageUTF8.baseAddress!, CInt(messageUTF8.count),
	file.baseAddress!, CInt(file.count), UInt32(line),
	flags)
	}
	}
	}

	Builtin.int_trap()
	}

	/// This function should be used only in the implementation of user-level
	/// assertions.
	///
	/// This function should not be inlined because it is cold and inlining just
	/// bloats code.
	@usableFromInline // FIXME(sil-serialize-all)
	@inline(never)
	internal func _assertionFailure(
	_ prefix: StaticString, _ message: String,
	flags: UInt32
	) -> Never {
	prefix.withUTF8Buffer {
	(prefix) -> Void in
	message._withUnsafeBufferPointerToUTF8 {
	(messageUTF8) -> Void in
	_swift_stdlib_reportFatalError(
	prefix.baseAddress!, CInt(prefix.count),
	messageUTF8.baseAddress!, CInt(messageUTF8.count),
	flags)
	}
	}

	Builtin.int_trap()
	}

	/// This function should be used only in the implementation of stdlib
	/// assertions.
	///
	/// This function should not be inlined because it is cold and it inlining just
	/// bloats code.
	@usableFromInline // FIXME(sil-serialize-all)
	@inline(never)
	@_semantics("arc.programtermination_point")
	internal func _fatalErrorMessage(
	_ prefix: StaticString, _ message: StaticString,
	file: StaticString, line: UInt,
	flags: UInt32
	) -> Never {
	#if INTERNAL_CHECKS_ENABLED
	prefix.withUTF8Buffer {
	(prefix) in
	message.withUTF8Buffer {
	(message) in
	file.withUTF8Buffer {
	(file) in
	_swift_stdlib_reportFatalErrorInFile(
	prefix.baseAddress!, CInt(prefix.count),
	message.baseAddress!, CInt(message.count),
	file.baseAddress!, CInt(file.count), UInt32(line),
	flags)
	}
	}
	}
	#else
	prefix.withUTF8Buffer {
	(prefix) in
	message.withUTF8Buffer {
	(message) in
	_swift_stdlib_reportFatalError(
	prefix.baseAddress!, CInt(prefix.count),
	message.baseAddress!, CInt(message.count),
	flags)
	}
	}
	#endif

	Builtin.int_trap()
	}

	/// Prints a fatal error message when an unimplemented initializer gets
	/// called by the Objective-C runtime.
	@_transparent
	public // COMPILER_INTRINSIC
	func _unimplementedInitializer(className: StaticString,
	initName: StaticString = #function,
	file: StaticString = #file,
	line: UInt = #line,
	column: UInt = #column
	) -> Never {
	// This function is marked @_transparent so that it is inlined into the caller
	// (the initializer stub), and, depending on the build configuration,
	// redundant parameter values (#file etc.) are eliminated, and don't leak
	// information about the user's source.

	if _isDebugAssertConfiguration() {
	className.withUTF8Buffer {
	(className) in
	initName.withUTF8Buffer {
	(initName) in
	file.withUTF8Buffer {
	(file) in
	_swift_stdlib_reportUnimplementedInitializerInFile(
	className.baseAddress!, CInt(className.count),
	initName.baseAddress!, CInt(initName.count),
	file.baseAddress!, CInt(file.count),
	UInt32(line), UInt32(column),
	/flags:/ 0)
	}
	}
	}
	} else {
	className.withUTF8Buffer {
	(className) in
	initName.withUTF8Buffer {
	(initName) in
	_swift_stdlib_reportUnimplementedInitializer(
	className.baseAddress!, CInt(className.count),
	initName.baseAddress!, CInt(initName.count),
	/flags:/ 0)
	}
	}
	}

	Builtin.int_trap()
	}

	// FIXME(ABI)#21 (Type Checker): rename to something descriptive.
	@inlinable // FIXME(sil-serialize-all)
	public // COMPILER_INTRINSIC
	func _undefined<T>(
	_ message: @autoclosure () -> String = String(),
	file: StaticString = #file, line: UInt = #line
	) -> T {
	_assertionFailure("Fatal error", message(), file: file, line: line, flags: 0)
	}

	/// Called when falling off the end of a switch and the type can be represented
	/// as a raw value.
	///
	/// This function should not be inlined because it is cold and inlining just
	/// bloats code. It doesn't take a source location because it's most important
	/// in release builds anyway (old apps that are run on new OSs).
	@inline(never)
	@usableFromInline // COMPILER_INTRINSIC
	internal func _diagnoseUnexpectedEnumCaseValue<SwitchedValue, RawValue>(
	type: SwitchedValue.Type,
	rawValue: RawValue
	) -> Never {
	_assertionFailure("Fatal error",
	"unexpected enum case '\(type)(rawValue: \(rawValue))'",
	flags: _fatalErrorFlags())
	}

	/// Called when falling off the end of a switch and the value is not safe to
	/// print.
	///
	/// This function should not be inlined because it is cold and inlining just
	/// bloats code. It doesn't take a source location because it's most important
	/// in release builds anyway (old apps that are run on new OSs).
	@inline(never)
	@usableFromInline // COMPILER_INTRINSIC
	internal func _diagnoseUnexpectedEnumCase<SwitchedValue>(
	type: SwitchedValue.Type
	) -> Never {
	_assertionFailure(
	"Fatal error",
	"unexpected enum case while switching on value of type '\(type)'",
	flags: _fatalErrorFlags())
	}