// RUN: %target-run-stdlib-swift | FileCheck %s // // Parts of this test depend on memory allocator specifics. The test // should be rewritten soon so it doesn't expose legacy components // like OpaqueString anyway, so we can just disable the failing // configuration // // Memory allocator specifics also vary across platorms. // REQUIRES: CPU=x86_64, OS=macosx import Foundation import Swift func hexAddrVal(x: T) -> String { return "@0x" + String(UInt64(unsafeBitCast(x, Word.self)), radix: 16) } func hexAddr(x: AnyObject?) -> String { if let owner = x { if let y = owner as? _StringBuffer._Storage.Storage { return ".Native\(hexAddrVal(y))" } if let y = owner as? NSString { return ".Cocoa\(hexAddrVal(y))" } else { return "?Uknown?\(hexAddrVal(owner))" } } return "nil" } func repr(x: NSString) -> String { return "\(NSStringFromClass(object_getClass(x)))\(hexAddr(x)) = \"\(x)\"" } func repr(x: _StringCore) -> String { if x.hasContiguousStorage { if let b = x.nativeBuffer { var offset = x.elementWidth == 2 ? UnsafeMutablePointer(b.start) - x.startUTF16 : UnsafeMutablePointer(b.start) - x.startASCII return "Contiguous(owner: " + "\(hexAddr(x._owner))[\(offset)...\(x.count + offset)]" + ", capacity = \(b.capacity))" } return "Contiguous(owner: \(hexAddr(x._owner)), count: \(x.count))" } else if let b2 = x.cocoaBuffer { return "Opaque(buffer: \(hexAddr(b2))[0...\(x.count)])" } return "?????" } func repr(x: String) -> String { return "String(\(repr(x._core))) = \"\(x)\"" } // ===------- Appending -------=== // CHECK: --- Appending --- println("--- Appending ---") var s = "⓪" // start non-empty // To make this test independent of the memory allocator implementation, // explicitly request initial capacity. s.reserveCapacity(8) // CHECK-NEXT: String(Contiguous(owner: .Native@[[buffer0:[x0-9a-f]+]][0...2], capacity = 8)) = "⓪1" s += "1" println("\(repr(s))") // CHECK-NEXT: String(Contiguous(owner: .Native@[[buffer1:[x0-9a-f]+]][0...8], capacity = 8)) = "⓪1234567" s += "234567" println("\(repr(s))") // -- expect a reallocation here // CHECK-NEXT: String(Contiguous(owner: .Native@[[buffer2:[x0-9a-f]+]][0...9], capacity = 16)) = "⓪12345678" // CHECK-NOT: .Native@[[buffer1]] s += "8" println("\(repr(s))") // CHECK-NEXT: String(Contiguous(owner: .Native@[[buffer2]][0...16], capacity = 16)) = "⓪123456789012345" s += "9012345" println("\(repr(s))") // -- expect a reallocation here // Appending more than the next level of capacity only takes as much // as required. I'm not sure whether this is a great idea, but the // point is to prevent huge amounts of fragmentation when a long // string is appended to a short one. The question, of course, is // whether more appends are coming, in which case we should give it // more capacity. It might be better to always grow to a multiple of // the current capacity when the capacity is exceeded. // CHECK-NEXT: String(Contiguous(owner: .Native@[[buffer3:[x0-9a-f]+]][0...48], capacity = 48)) // CHECK-NOT: .Native@[[buffer2]] s += s + s println("\(repr(s))") // -- expect a reallocation here // CHECK-NEXT: String(Contiguous(owner: .Native@[[buffer4:[x0-9a-f]+]][0...49], capacity = 96)) // CHECK-NOT: .Native@[[buffer3]] s += "C" println("\(repr(s))") /// An additional reference to the same buffer doesn't, by itself, /// impede the use of available capacity var s1 = s // CHECK-NEXT: String(Contiguous(owner: .Native@[[buffer4]][0...50], capacity = 96)) s += "F" println("\(repr(s))") // CHECK-NEXT: String(Contiguous(owner: .Native@[[buffer4]][0...49], capacity = 96)) println("\(repr(s1))") /// The use of later buffer capacity by another string forces /// reallocation // CHECK-NEXT: String{{.*}} = {{.*}}X" // CHECK-NOT: .Native@[[buffer4]] s1 += "X" println("\(repr(s1))") /// Appending to an empty string re-uses the RHS // CHECK-NEXT: .Native@[[buffer4]] var s2 = String() s2 += s println("\(repr(s2))")