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1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 // WARNING: You should *NOT* be using this class directly. PlatformThread is
6 // the low-level platform-specific abstraction to the OS's threading interface.
7 // You should instead be using a message-loop driven Thread, see thread.h.
9 #ifndef BASE_THREADING_PLATFORM_THREAD_H_
10 #define BASE_THREADING_PLATFORM_THREAD_H_
17 #if defined(OS_WIN)
18 #include <windows.h>
19 #elif defined(OS_POSIX)
20 #include <pthread.h>
21 #include <unistd.h>
22 #endif
26 // Used for logging. Always an integer value.
27 #if defined(OS_WIN)
29 #elif defined(OS_POSIX)
31 #endif
33 // Used for thread checking and debugging.
34 // Meant to be as fast as possible.
35 // These are produced by PlatformThread::CurrentRef(), and used to later
36 // check if we are on the same thread or not by using ==. These are safe
37 // to copy between threads, but can't be copied to another process as they
38 // have no meaning there. Also, the internal identifier can be re-used
39 // after a thread dies, so a PlatformThreadRef cannot be reliably used
40 // to distinguish a new thread from an old, dead thread.
43 #if defined(OS_WIN)
45 #elif defined(OS_POSIX)
47 #endif
50 }
54 }
58 }
62 }
64 RefType id_;
65 };
67 // Used to operate on threads.
70 #if defined(OS_WIN)
72 #elif defined(OS_POSIX)
74 #endif
79 }
84 }
87 PlatformThreadId id)
90 }
94 }
98 }
102 }
107 Handle handle_;
108 PlatformThreadId id_;
109 };
113 // Valid values for SetThreadPriority()
115 kThreadPriority_Normal,
116 // Suitable for low-latency, glitch-resistant audio.
117 kThreadPriority_RealtimeAudio,
118 // Suitable for threads which generate data for the display (at ~60Hz).
119 kThreadPriority_Display,
120 // Suitable for threads that shouldn't disrupt high priority work.
121 kThreadPriority_Background
122 };
124 // A namespace for low-level thread functions.
127 // Implement this interface to run code on a background thread. Your
128 // ThreadMain method will be called on the newly created thread.
135 };
137 // Gets the current thread id, which may be useful for logging purposes.
140 // Gets the current thread reference, which can be used to check if
141 // we're on the right thread quickly.
144 // Get the current handle.
147 // Yield the current thread so another thread can be scheduled.
150 // Sleeps for the specified duration.
153 // Sets the thread name visible to debuggers/tools. This has no effect
154 // otherwise. This name pointer is not copied internally. Thus, it must stay
155 // valid until the thread ends.
158 // Gets the thread name, if previously set by SetName.
161 // Creates a new thread. The |stack_size| parameter can be 0 to indicate
162 // that the default stack size should be used. Upon success,
163 // |*thread_handle| will be assigned a handle to the newly created thread,
164 // and |delegate|'s ThreadMain method will be executed on the newly created
165 // thread.
166 // NOTE: When you are done with the thread handle, you must call Join to
167 // release system resources associated with the thread. You must ensure that
168 // the Delegate object outlives the thread.
172 // CreateWithPriority() does the same thing as Create() except the priority of
173 // the thread is set based on |priority|. Can be used in place of Create()
174 // followed by SetThreadPriority(). SetThreadPriority() has not been
175 // implemented on the Linux platform yet, this is the only way to get a high
176 // priority thread on Linux.
179 ThreadPriority priority);
181 // CreateNonJoinable() does the same thing as Create() except the thread
182 // cannot be Join()'d. Therefore, it also does not output a
183 // PlatformThreadHandle.
186 // Joins with a thread created via the Create function. This function blocks
187 // the caller until the designated thread exits. This will invalidate
188 // |thread_handle|.
192 ThreadPriority priority);
196 };