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In standard JVM (e.g., version 1.8), we can access the current thread's time like this:

ManagementFactory.getThreadMXBean().getCurrentThreadCpuTime();

What is the equivalent methodology to get current thread's time in Android (i.e., Dalvik VM).

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  • Define cpu time. Do you want time since the CPU was started, time elapsed, wall time, something else? Also what level of precision are you looking for? Jun 27, 2017 at 20:59
  • Also there is no promise even under standard java that currentThreadCpuTime is supported. Jun 27, 2017 at 21:01
  • I want to profile running time of a method in Android. If I measure the time with System.nanoTime() (e.g., t1=System.nanoTime(); methodCall(); timeDiff = System.nanoTime() - t1;), other timing measurements (e.g., context switch time, other threads running times) will be included into the calculated time difference. So, I just want to calculate the execution time for this specific thread. As far as I know, in standard Java, we can use 'getCurrentThreadCpuTime()'. But, I don't know how to do this in Android. Jun 28, 2017 at 3:35

3 Answers 3

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CPU Time methods

SystemClock.currentThreadTimeMillis:

From the implementation you can see that it is using CLOCK_THREAD_CPUTIME_ID, and dividing nanos to millis. Similarly there is currentThreadTimeMicro. These two use the @CriticalNative annotation which is even faster than @FastNative. This special optimisation requires that the method does not use objects, just primitives, and is static. Because of that, no JNIEnv is used at all. Similarly with @FastNative, these annotations are only for platform calls, and are not dynamically linked, instead are specially linked by the framework beforehand.

android.os.Debug.threadCpuTimeNanos()

Get an indication of thread CPU usage. The value returned indicates the amount of time that the current thread has spent executing code or waiting for certain types of I/O. The time is expressed in nanoseconds, and is only meaningful when compared to the result from an earlier call. Note that nanosecond resolution does not imply nanosecond accuracy.

By inspecting Android Runtime (ART), this calls ThreadCpuNanoTime method, which uses the CLOCK_THREAD_CPUTIME_ID. Also, it is marked as a fast Native method and annotated in Java as @FastNative. This allows it to be optimized by speeding up the JNI transitions. I guess that this optimization, similarly to @CriticalNative, takes advantage of the fact that they do not need to fully construct/destruct a JNI environment, since there are no really dependencies here. It's essentially just a syscall.

Alternatively, one can implement a JNI method that does the same thing, but that won't have the faster JNI handling.

Wall clock approaches

Both System.nanoTime(), and currentTimeMillis() are not bound to a thread, and use CLOCK_MONOTONIC.

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So, I found this solution in Android:

SystemClock.currentThreadTimeMillis(); 

The Android documentation states that this method

Returns milliseconds running in the current thread.

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i'm not familiar with any such equivalent in the Java API.

thinking beyond the Java API, however... could you glean any useful information from top?

top -t will apparently include thread-specific information in the reporting. here's the result from running on one of my devices:

enter image description here

there appears to be thread and CPU utilization data available there.

getting access to this output would involve some primitive form of input stream handling, e.g.

try {
    final String cmd = "top -t"

    final Process ps = Runtime.getRuntime().exec(cmd);
    ps.waitFor();

    final InputStream instream = ps.getInputStream();

    ...

} catch(Throwable t) { /* handle errors */ }
} finally { /* clean-up */ }

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