/* * Copyright (C) 2009 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.camera.stress; import com.android.camera.Camera; import android.app.Instrumentation; import android.os.Environment; import android.test.ActivityInstrumentationTestCase2; import android.test.suitebuilder.annotation.LargeTest; import android.util.Log; import android.view.KeyEvent; import java.io.BufferedWriter; import java.io.FileWriter; /** * Junit / Instrumentation test case for camera test * */ public class CameraLatency extends ActivityInstrumentationTestCase2 { private String TAG = "CameraLatency"; private static final int TOTAL_NUMBER_OF_IMAGECAPTURE = 20; private static final long WAIT_FOR_IMAGE_CAPTURE_TO_BE_TAKEN = 4000; private static final String CAMERA_TEST_OUTPUT_FILE = Environment.getExternalStorageDirectory().toString() + "/mediaStressOut.txt"; private long mTotalAutoFocusTime; private long mTotalShutterLag; private long mTotalShutterToPictureDisplayedTime; private long mTotalPictureDisplayedToJpegCallbackTime; private long mTotalJpegCallbackFinishTime; private long mAvgAutoFocusTime; private long mAvgShutterLag = mTotalShutterLag; private long mAvgShutterToPictureDisplayedTime; private long mAvgPictureDisplayedToJpegCallbackTime; private long mAvgJpegCallbackFinishTime; public CameraLatency() { super("com.google.android.camera", Camera.class); } @Override protected void setUp() throws Exception { getActivity(); super.setUp(); } @Override protected void tearDown() throws Exception { super.tearDown(); } @LargeTest public void testImageCapture() { Log.v(TAG, "start testImageCapture test"); Instrumentation inst = getInstrumentation(); try { for (int i = 0; i < TOTAL_NUMBER_OF_IMAGECAPTURE; i++) { Thread.sleep(WAIT_FOR_IMAGE_CAPTURE_TO_BE_TAKEN); inst.sendKeyDownUpSync(KeyEvent.KEYCODE_DPAD_UP); inst.sendKeyDownUpSync(KeyEvent.KEYCODE_DPAD_CENTER); Thread.sleep(WAIT_FOR_IMAGE_CAPTURE_TO_BE_TAKEN); //skip the first measurement if (i != 0) { Camera c = getActivity(); mTotalAutoFocusTime += c.mAutoFocusTime; mTotalShutterLag += c.mShutterLag; mTotalShutterToPictureDisplayedTime += c.mShutterToPictureDisplayedTime; mTotalPictureDisplayedToJpegCallbackTime += c.mPictureDisplayedToJpegCallbackTime; mTotalJpegCallbackFinishTime += c.mJpegCallbackFinishTime; } } } catch (Exception e) { Log.v(TAG, e.toString()); } //ToDO: yslau //1) Need to get the baseline from the cupcake so that we can add the //failure condition of the camera latency. //2) Only count those number with succesful capture. Set the timer to invalid //before capture and ignore them if the value is invalid int numberofRun = TOTAL_NUMBER_OF_IMAGECAPTURE - 1; mAvgAutoFocusTime = mTotalAutoFocusTime / numberofRun; mAvgShutterLag = mTotalShutterLag / numberofRun; mAvgShutterToPictureDisplayedTime = mTotalShutterToPictureDisplayedTime / numberofRun; mAvgPictureDisplayedToJpegCallbackTime = mTotalPictureDisplayedToJpegCallbackTime / numberofRun; mAvgJpegCallbackFinishTime = mTotalJpegCallbackFinishTime / numberofRun; try { FileWriter fstream = null; fstream = new FileWriter(CAMERA_TEST_OUTPUT_FILE, true); BufferedWriter out = new BufferedWriter(fstream); out.write("Camera Latency : \n"); out.write("Number of loop: " + TOTAL_NUMBER_OF_IMAGECAPTURE + "\n"); out.write("Avg AutoFocus = " + mAvgAutoFocusTime + "\n"); out.write("Avg mShutterLag = " + mAvgShutterLag + "\n"); out.write("Avg mShutterToPictureDisplayedTime = " + mAvgShutterToPictureDisplayedTime + "\n"); out.write("Avg mPictureDisplayedToJpegCallbackTime = " + mAvgPictureDisplayedToJpegCallbackTime + "\n"); out.write("Avg mJpegCallbackFinishTime = " + mAvgJpegCallbackFinishTime + "\n"); out.close(); fstream.close(); } catch (Exception e) { fail("Camera Latency write output to file"); } Log.v(TAG, "The Image capture wait time = " + WAIT_FOR_IMAGE_CAPTURE_TO_BE_TAKEN); Log.v(TAG, "Avg AutoFocus = " + mAvgAutoFocusTime); Log.v(TAG, "Avg mShutterLag = " + mAvgShutterLag); Log.v(TAG, "Avg mShutterToPictureDisplayedTime = " + mAvgShutterToPictureDisplayedTime); Log.v(TAG, "Avg mPictureDisplayedToJpegCallbackTime = " + mAvgPictureDisplayedToJpegCallbackTime); Log.v(TAG, "Avg mJpegCallbackFinishTime = " + mAvgJpegCallbackFinishTime); assertTrue("testImageCapture", true); } }