validation-test/stdlib/StringSlicesConcurrentAppend.swift - third_party/swift - Git at Google

 // RUN: %target-run-simple-swift
 // REQUIRES: executable_test

 import StdlibUnittest
 import SwiftPrivatePthreadExtras
 #if os(OSX) || os(iOS)
 import Darwin
 #elseif os(Linux)
 import Glibc
 #endif


 var StringTestSuite = TestSuite("String")

 extension String {
   var bufferID: UInt {
     return unsafeBitCast(_core._owner, to: UInt.self)
   }
   var capacityInBytes: Int {
     return _core.nativeBuffer!.capacity
   }
 }

 // Swift.String has an optimization that allows us to append to a shared string
 // buffer.  Make sure that it works correctly when two threads try to append to
 // different non-shared strings that point to the same shared buffer.

 enum ThreadID {
   case Primary
   case Secondary
 }

 var barrierVar: UnsafeMutablePointer<_stdlib_pthread_barrier_t>? = nil
 var sharedString: String = ""
 var secondaryString: String = ""

 func barrier() {
   var ret = _stdlib_pthread_barrier_wait(barrierVar!)
   expectTrue(ret == 0 || ret == _stdlib_PTHREAD_BARRIER_SERIAL_THREAD)
 }

 func sliceConcurrentAppendThread(_ tid: ThreadID) {
   for i in 0..<100 {
     barrier()
     if tid == .Primary {
       // Get a fresh buffer.
       sharedString = ""
       sharedString.append("abc")
       sharedString.reserveCapacity(16)
       expectLE(16, sharedString.capacityInBytes)
     }

     barrier()

     // Get a private string.
     var privateString = sharedString

     barrier()

     // Append to the private string.
     if tid == .Primary {
       privateString.append("def")
     } else {
       privateString.append("ghi")
     }

     barrier()

     // Verify that contents look good.
     if tid == .Primary {
       expectEqual("abcdef", privateString)
     } else {
       expectEqual("abcghi", privateString)
     }
     expectEqual("abc", sharedString)

     // Verify that only one thread took ownership of the buffer.
     if tid == .Secondary {
       secondaryString = privateString
     }
     barrier()
     if tid == .Primary {
       expectTrue(
         (privateString.bufferID == sharedString.bufferID) !=
           (secondaryString.bufferID == sharedString.bufferID))
     }
   }
 }

 StringTestSuite.test("SliceConcurrentAppend") {
   barrierVar = UnsafeMutablePointer.allocate(capacity: 1)
   barrierVar!.initialize(to: _stdlib_pthread_barrier_t())
   var ret = _stdlib_pthread_barrier_init(barrierVar!, nil, 2)
   expectEqual(0, ret)

   let (createRet1, tid1) = _stdlib_pthread_create_block(
     nil, sliceConcurrentAppendThread, .Primary)
   let (createRet2, tid2) = _stdlib_pthread_create_block(
     nil, sliceConcurrentAppendThread, .Secondary)

   expectEqual(0, createRet1)
   expectEqual(0, createRet2)

   let (joinRet1, _) = _stdlib_pthread_join(tid1!, Void.self)
   let (joinRet2, _) = _stdlib_pthread_join(tid2!, Void.self)

   expectEqual(0, joinRet1)
   expectEqual(0, joinRet2)

   ret = _stdlib_pthread_barrier_destroy(barrierVar!)
   expectEqual(0, ret)

   barrierVar!.deinitialize()
   barrierVar!.deallocate(capacity: 1)
 }

 runAllTests()
	// RUN: %target-run-simple-swift
	// REQUIRES: executable_test

	import StdlibUnittest
	import SwiftPrivatePthreadExtras
	#if os(OSX) \|\| os(iOS)
	import Darwin
	#elseif os(Linux)
	import Glibc
	#endif


	var StringTestSuite = TestSuite("String")

	extension String {
	var bufferID: UInt {
	return unsafeBitCast(_core._owner, to: UInt.self)
	}
	var capacityInBytes: Int {
	return _core.nativeBuffer!.capacity
	}
	}

	// Swift.String has an optimization that allows us to append to a shared string
	// buffer. Make sure that it works correctly when two threads try to append to
	// different non-shared strings that point to the same shared buffer.

	enum ThreadID {
	case Primary
	case Secondary
	}

	var barrierVar: UnsafeMutablePointer<_stdlib_pthread_barrier_t>? = nil
	var sharedString: String = ""
	var secondaryString: String = ""

	func barrier() {
	var ret = _stdlib_pthread_barrier_wait(barrierVar!)
	expectTrue(ret == 0 \|\| ret == _stdlib_PTHREAD_BARRIER_SERIAL_THREAD)
	}

	func sliceConcurrentAppendThread(_ tid: ThreadID) {
	for i in 0..<100 {
	barrier()
	if tid == .Primary {
	// Get a fresh buffer.
	sharedString = ""
	sharedString.append("abc")
	sharedString.reserveCapacity(16)
	expectLE(16, sharedString.capacityInBytes)
	}

	barrier()

	// Get a private string.
	var privateString = sharedString

	barrier()

	// Append to the private string.
	if tid == .Primary {
	privateString.append("def")
	} else {
	privateString.append("ghi")
	}

	barrier()

	// Verify that contents look good.
	if tid == .Primary {
	expectEqual("abcdef", privateString)
	} else {
	expectEqual("abcghi", privateString)
	}
	expectEqual("abc", sharedString)

	// Verify that only one thread took ownership of the buffer.
	if tid == .Secondary {
	secondaryString = privateString
	}
	barrier()
	if tid == .Primary {
	expectTrue(
	(privateString.bufferID == sharedString.bufferID) !=
	(secondaryString.bufferID == sharedString.bufferID))
	}
	}
	}

	StringTestSuite.test("SliceConcurrentAppend") {
	barrierVar = UnsafeMutablePointer.allocate(capacity: 1)
	barrierVar!.initialize(to: _stdlib_pthread_barrier_t())
	var ret = _stdlib_pthread_barrier_init(barrierVar!, nil, 2)
	expectEqual(0, ret)

	let (createRet1, tid1) = _stdlib_pthread_create_block(
	nil, sliceConcurrentAppendThread, .Primary)
	let (createRet2, tid2) = _stdlib_pthread_create_block(
	nil, sliceConcurrentAppendThread, .Secondary)

	expectEqual(0, createRet1)
	expectEqual(0, createRet2)

	let (joinRet1, _) = _stdlib_pthread_join(tid1!, Void.self)
	let (joinRet2, _) = _stdlib_pthread_join(tid2!, Void.self)

	expectEqual(0, joinRet1)
	expectEqual(0, joinRet2)

	ret = _stdlib_pthread_barrier_destroy(barrierVar!)
	expectEqual(0, ret)

	barrierVar!.deinitialize()
	barrierVar!.deallocate(capacity: 1)
	}

	runAllTests()