//////////////////////////////////////////////////////////////////////////////// // // Microsoft Research Singularity // // Copyright (c) Microsoft Corporation. All rights reserved. // // File: TContainer.sg // // Note: File is part of Sing# runtime files and copied into Singularity tree // whenever a new version of Sing# is dropped. // Coordinate any changes with Sing# team. // using System; using Microsoft.SingSharp; namespace Microsoft.Singularity.Channels { using System.Threading; /// /// TContainer is similar to TRef. It wraps ownership tracked objects (deriving from ITracked) so that /// they can be stored in the GC heap. /// public sealed class TContainer where T : class, ITracked { unsafe T obj; Mutex! mutex; public TContainer([Claims] T! i_obj) { if (i_obj == null) { throw new ArgumentNullException("TContainer must be initialized with a non-null value!"); } obj = i_obj; i_obj.Release(); mutex = new Mutex(); base(); } // invariant: // If mutex is held, thread holding mutex is responsible for calling Release // during that time, the obj slot is empty and if the thread tries to acquire it // again, an exception is thrown. /// /// Will block until the container is full. /// /// Acquired tracked type protected by TContainer public T! Acquire() { mutex.WaitOne(); T elem = this.obj; if (elem == null) { throw new ApplicationException("thread already holds TRef!"); } elem.Acquire(); this.obj = null; return elem; } /// /// Releases tracked data into the container so other threads can access it. /// /// tracked data to be released public void Release([Claims] T! newObj) { if (newObj == null) { throw new ArgumentNullException("TContainer must be released with a non-null value!"); } newObj.Release(); obj = newObj; mutex.ReleaseMutex(); } /// /// Finalizer to dispose of any left over contents /// ~TContainer() { ITracked toDelete = this.obj; if (toDelete != null) { this.obj = null; toDelete.Dispose(); } } } /// /// VContainer are TContainers for vectors without tracked contents in the shared heap. /// public sealed class VContainer where T : unmanaged struct { unsafe T[] in ExHeap obj; Mutex! mutex; public VContainer([Claims] T[]! in ExHeap i_obj) { if (i_obj == null) { throw new ArgumentNullException("TContainer must be initialized with a non-null value!"); } obj = i_obj; mutex = new Mutex(); base(); } // invariant: // If mutex is held, thread holding mutex is responsible for calling Release // during that time, the obj slot is empty and if the thread tries to acquire it // again, an exception is thrown. /// /// Will block until the container is full. /// /// Acquired tracked type protected by TContainer public T[]! in ExHeap Acquire() { mutex.WaitOne(); T[] in ExHeap elem = this.obj; if (elem == null) { throw new ApplicationException("thread already holds TRef!"); } this.obj = null; return elem; } /// /// Releases tracked data into the container so other threads can access it. /// /// tracked data to be released public void Release([Claims] T[]! in ExHeap newObj) { if (newObj == null) { throw new ArgumentNullException("TContainer must be released with a non-null value!"); } obj = newObj; mutex.ReleaseMutex(); } /// /// Finalizer to dispose of any left over contents /// ~VContainer() { T[] in ExHeap toDelete = this.obj; if (toDelete != null) { this.obj = null; delete toDelete; } } } }