/* * Copyright (C) 2007 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 android.test; import static android.test.suitebuilder.TestPredicates.REJECT_PERFORMANCE; import com.android.internal.util.Predicate; import android.app.Activity; import android.app.Instrumentation; import android.os.Bundle; import android.os.Debug; import android.os.Looper; import android.os.Parcelable; import android.os.PerformanceCollector; import android.os.PerformanceCollector.PerformanceResultsWriter; import android.test.suitebuilder.TestMethod; import android.test.suitebuilder.TestPredicates; import android.test.suitebuilder.TestSuiteBuilder; import android.util.Log; import java.io.ByteArrayOutputStream; import java.io.File; import java.io.PrintStream; import java.lang.reflect.InvocationTargetException; import java.lang.reflect.Method; import java.util.ArrayList; import java.util.List; import junit.framework.AssertionFailedError; import junit.framework.Test; import junit.framework.TestCase; import junit.framework.TestListener; import junit.framework.TestResult; import junit.framework.TestSuite; import junit.runner.BaseTestRunner; import junit.textui.ResultPrinter; /** * An {@link Instrumentation} that runs various types of {@link junit.framework.TestCase}s against * an Android package (application). Typical usage: *
    *
  1. Write {@link junit.framework.TestCase}s that perform unit, functional, or performance tests * against the classes in your package. Typically these are subclassed from: * *
  2. In an appropriate AndroidManifest.xml, define the this instrumentation with * the appropriate android:targetPackage set. *
  3. Run the instrumentation using "adb shell am instrument -w", * with no optional arguments, to run all tests (except performance tests). *
  4. Run the instrumentation using "adb shell am instrument -w", * with the argument '-e func true' to run all functional tests. These are tests that derive from * {@link android.test.InstrumentationTestCase}. *
  5. Run the instrumentation using "adb shell am instrument -w", * with the argument '-e unit true' to run all unit tests. These are tests that do notderive * from {@link android.test.InstrumentationTestCase} (and are not performance tests). *
  6. Run the instrumentation using "adb shell am instrument -w", * with the argument '-e class' set to run an individual {@link junit.framework.TestCase}. *
*

* Running all tests: adb shell am instrument -w * com.android.foo/android.test.InstrumentationTestRunner *

* Running all small tests: adb shell am instrument -w * -e size small * com.android.foo/android.test.InstrumentationTestRunner *

* Running all medium tests: adb shell am instrument -w * -e size medium * com.android.foo/android.test.InstrumentationTestRunner *

* Running all large tests: adb shell am instrument -w * -e size large * com.android.foo/android.test.InstrumentationTestRunner *

* Running a single testcase: adb shell am instrument -w * -e class com.android.foo.FooTest * com.android.foo/android.test.InstrumentationTestRunner *

* Running a single test: adb shell am instrument -w * -e class com.android.foo.FooTest#testFoo * com.android.foo/android.test.InstrumentationTestRunner *

* Running multiple tests: adb shell am instrument -w * -e class com.android.foo.FooTest,com.android.foo.TooTest * com.android.foo/android.test.InstrumentationTestRunner *

* Including performance tests: adb shell am instrument -w * -e perf true * com.android.foo/android.test.InstrumentationTestRunner *

* To debug your tests, set a break point in your code and pass: * -e debug true *

* To run in 'log only' mode * -e log true * This option will load and iterate through all test classes and methods, but will bypass actual * test execution. Useful for quickly obtaining info on the tests to be executed by an * instrumentation command. *

* To generate EMMA code coverage: * -e coverage true * Note: this requires an emma instrumented build. By default, the code coverage results file * will be saved in a /data//coverage.ec file, unless overridden by coverageFile flag (see * below) *

* To specify EMMA code coverage results file path: * -e coverageFile /sdcard/myFile.ec *
* in addition to the other arguments. */ /* (not JavaDoc) * Although not necessary in most case, another way to use this class is to extend it and have the * derived class return the desired test suite from the {@link #getTestSuite()} method. The test * suite returned from this method will be used if no target class is defined in the meta-data or * command line argument parameters. If a derived class is used it needs to be added as an * instrumentation to the AndroidManifest.xml and the command to run it would look like: *

* adb shell am instrument -w com.android.foo/com.android.FooInstrumentationTestRunner *

* Where com.android.FooInstrumentationTestRunner is the derived class. * * This model is used by many existing app tests, but can probably be deprecated. */ public class InstrumentationTestRunner extends Instrumentation implements TestSuiteProvider { /** @hide */ public static final String ARGUMENT_TEST_CLASS = "class"; /** @hide */ public static final String ARGUMENT_TEST_PACKAGE = "package"; /** @hide */ public static final String ARGUMENT_TEST_SIZE_PREDICATE = "size"; /** @hide */ public static final String ARGUMENT_INCLUDE_PERF = "perf"; /** @hide */ public static final String ARGUMENT_DELAY_MSEC = "delay_msec"; private static final String SMALL_SUITE = "small"; private static final String MEDIUM_SUITE = "medium"; private static final String LARGE_SUITE = "large"; private static final String ARGUMENT_LOG_ONLY = "log"; /** * This constant defines the maximum allowed runtime (in ms) for a test included in the "small" * suite. It is used to make an educated guess at what suite an unlabeled test belongs. */ private static final float SMALL_SUITE_MAX_RUNTIME = 100; /** * This constant defines the maximum allowed runtime (in ms) for a test included in the * "medium" suite. It is used to make an educated guess at what suite an unlabeled test belongs. */ private static final float MEDIUM_SUITE_MAX_RUNTIME = 1000; /** * The following keys are used in the status bundle to provide structured reports to * an IInstrumentationWatcher. */ /** * This value, if stored with key {@link android.app.Instrumentation#REPORT_KEY_IDENTIFIER}, * identifies InstrumentationTestRunner as the source of the report. This is sent with all * status messages. */ public static final String REPORT_VALUE_ID = "InstrumentationTestRunner"; /** * If included in the status or final bundle sent to an IInstrumentationWatcher, this key * identifies the total number of tests that are being run. This is sent with all status * messages. */ public static final String REPORT_KEY_NUM_TOTAL = "numtests"; /** * If included in the status or final bundle sent to an IInstrumentationWatcher, this key * identifies the sequence number of the current test. This is sent with any status message * describing a specific test being started or completed. */ public static final String REPORT_KEY_NUM_CURRENT = "current"; /** * If included in the status or final bundle sent to an IInstrumentationWatcher, this key * identifies the name of the current test class. This is sent with any status message * describing a specific test being started or completed. */ public static final String REPORT_KEY_NAME_CLASS = "class"; /** * If included in the status or final bundle sent to an IInstrumentationWatcher, this key * identifies the name of the current test. This is sent with any status message * describing a specific test being started or completed. */ public static final String REPORT_KEY_NAME_TEST = "test"; /** * If included in the status or final bundle sent to an IInstrumentationWatcher, this key * reports the run time in seconds of the current test. */ private static final String REPORT_KEY_RUN_TIME = "runtime"; /** * If included in the status or final bundle sent to an IInstrumentationWatcher, this key * reports the guessed suite assignment for the current test. */ private static final String REPORT_KEY_SUITE_ASSIGNMENT = "suiteassignment"; /** * If included in the status or final bundle sent to an IInstrumentationWatcher, this key * identifies the path to the generated code coverage file. */ private static final String REPORT_KEY_COVERAGE_PATH = "coverageFilePath"; /** * The test is starting. */ public static final int REPORT_VALUE_RESULT_START = 1; /** * The test completed successfully. */ public static final int REPORT_VALUE_RESULT_OK = 0; /** * The test completed with an error. */ public static final int REPORT_VALUE_RESULT_ERROR = -1; /** * The test completed with a failure. */ public static final int REPORT_VALUE_RESULT_FAILURE = -2; /** * If included in the status bundle sent to an IInstrumentationWatcher, this key * identifies a stack trace describing an error or failure. This is sent with any status * message describing a specific test being completed. */ public static final String REPORT_KEY_STACK = "stack"; // Default file name for code coverage private static final String DEFAULT_COVERAGE_FILE_NAME = "coverage.ec"; private static final String LOG_TAG = "InstrumentationTestRunner"; private final Bundle mResults = new Bundle(); private AndroidTestRunner mTestRunner; private boolean mDebug; private boolean mJustCount; private boolean mSuiteAssignmentMode; private int mTestCount; private String mPackageOfTests; private boolean mCoverage; private String mCoverageFilePath; private int mDelayMsec; @Override public void onCreate(Bundle arguments) { super.onCreate(arguments); // Apk paths used to search for test classes when using TestSuiteBuilders. String[] apkPaths = {getTargetContext().getPackageCodePath(), getContext().getPackageCodePath()}; ClassPathPackageInfoSource.setApkPaths(apkPaths); Predicate testSizePredicate = null; boolean includePerformance = false; String testClassesArg = null; boolean logOnly = false; if (arguments != null) { // Test class name passed as an argument should override any meta-data declaration. testClassesArg = arguments.getString(ARGUMENT_TEST_CLASS); mDebug = getBooleanArgument(arguments, "debug"); mJustCount = getBooleanArgument(arguments, "count"); mSuiteAssignmentMode = getBooleanArgument(arguments, "suiteAssignment"); mPackageOfTests = arguments.getString(ARGUMENT_TEST_PACKAGE); testSizePredicate = getSizePredicateFromArg( arguments.getString(ARGUMENT_TEST_SIZE_PREDICATE)); includePerformance = getBooleanArgument(arguments, ARGUMENT_INCLUDE_PERF); logOnly = getBooleanArgument(arguments, ARGUMENT_LOG_ONLY); mCoverage = getBooleanArgument(arguments, "coverage"); mCoverageFilePath = arguments.getString("coverageFile"); try { Object delay = arguments.get(ARGUMENT_DELAY_MSEC); // Accept either string or int if (delay != null) mDelayMsec = Integer.parseInt(delay.toString()); } catch (NumberFormatException e) { Log.e(LOG_TAG, "Invalid delay_msec parameter", e); } } TestSuiteBuilder testSuiteBuilder = new TestSuiteBuilder(getClass().getName(), getTargetContext().getClassLoader()); if (testSizePredicate != null) { testSuiteBuilder.addRequirements(testSizePredicate); } if (!includePerformance) { testSuiteBuilder.addRequirements(REJECT_PERFORMANCE); } if (testClassesArg == null) { if (mPackageOfTests != null) { testSuiteBuilder.includePackages(mPackageOfTests); } else { TestSuite testSuite = getTestSuite(); if (testSuite != null) { testSuiteBuilder.addTestSuite(testSuite); } else { // no package or class bundle arguments were supplied, and no test suite // provided so add all tests in application testSuiteBuilder.includePackages(""); } } } else { parseTestClasses(testClassesArg, testSuiteBuilder); } testSuiteBuilder.addRequirements(getBuilderRequirements()); mTestRunner = getAndroidTestRunner(); mTestRunner.setContext(getTargetContext()); mTestRunner.setInstrumentation(this); mTestRunner.setSkipExecution(logOnly); mTestRunner.setTest(testSuiteBuilder.build()); mTestCount = mTestRunner.getTestCases().size(); if (mSuiteAssignmentMode) { mTestRunner.addTestListener(new SuiteAssignmentPrinter()); } else { WatcherResultPrinter resultPrinter = new WatcherResultPrinter(mTestCount); mTestRunner.addTestListener(new TestPrinter("TestRunner", false)); mTestRunner.addTestListener(resultPrinter); mTestRunner.setPerformanceResultsWriter(resultPrinter); } start(); } List> getBuilderRequirements() { return new ArrayList>(); } /** * Parses and loads the specified set of test classes * * @param testClassArg - comma-separated list of test classes and methods * @param testSuiteBuilder - builder to add tests to */ private void parseTestClasses(String testClassArg, TestSuiteBuilder testSuiteBuilder) { String[] testClasses = testClassArg.split(","); for (String testClass : testClasses) { parseTestClass(testClass, testSuiteBuilder); } } /** * Parse and load the given test class and, optionally, method * * @param testClassName - full package name of test class and optionally method to add. * Expected format: com.android.TestClass#testMethod * @param testSuiteBuilder - builder to add tests to */ private void parseTestClass(String testClassName, TestSuiteBuilder testSuiteBuilder) { int methodSeparatorIndex = testClassName.indexOf('#'); String testMethodName = null; if (methodSeparatorIndex > 0) { testMethodName = testClassName.substring(methodSeparatorIndex + 1); testClassName = testClassName.substring(0, methodSeparatorIndex); } testSuiteBuilder.addTestClassByName(testClassName, testMethodName, getTargetContext()); } protected AndroidTestRunner getAndroidTestRunner() { return new AndroidTestRunner(); } private boolean getBooleanArgument(Bundle arguments, String tag) { String tagString = arguments.getString(tag); return tagString != null && Boolean.parseBoolean(tagString); } /* * Returns the size predicate object, corresponding to the "size" argument value. */ private Predicate getSizePredicateFromArg(String sizeArg) { if (SMALL_SUITE.equals(sizeArg)) { return TestPredicates.SELECT_SMALL; } else if (MEDIUM_SUITE.equals(sizeArg)) { return TestPredicates.SELECT_MEDIUM; } else if (LARGE_SUITE.equals(sizeArg)) { return TestPredicates.SELECT_LARGE; } else { return null; } } @Override public void onStart() { Looper.prepare(); if (mJustCount) { mResults.putString(Instrumentation.REPORT_KEY_IDENTIFIER, REPORT_VALUE_ID); mResults.putInt(REPORT_KEY_NUM_TOTAL, mTestCount); finish(Activity.RESULT_OK, mResults); } else { if (mDebug) { Debug.waitForDebugger(); } ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream(); PrintStream writer = new PrintStream(byteArrayOutputStream); try { StringResultPrinter resultPrinter = new StringResultPrinter(writer); mTestRunner.addTestListener(resultPrinter); long startTime = System.currentTimeMillis(); mTestRunner.runTest(); long runTime = System.currentTimeMillis() - startTime; resultPrinter.print(mTestRunner.getTestResult(), runTime); } finally { mResults.putString(Instrumentation.REPORT_KEY_STREAMRESULT, String.format("\nTest results for %s=%s", mTestRunner.getTestClassName(), byteArrayOutputStream.toString())); if (mCoverage) { generateCoverageReport(); } writer.close(); finish(Activity.RESULT_OK, mResults); } } } public TestSuite getTestSuite() { return getAllTests(); } /** * Override this to define all of the tests to run in your package. */ public TestSuite getAllTests() { return null; } /** * Override this to provide access to the class loader of your package. */ public ClassLoader getLoader() { return null; } private void generateCoverageReport() { // use reflection to call emma dump coverage method, to avoid // always statically compiling against emma jar String coverageFilePath = getCoverageFilePath(); java.io.File coverageFile = new java.io.File(coverageFilePath); try { Class emmaRTClass = Class.forName("com.vladium.emma.rt.RT"); Method dumpCoverageMethod = emmaRTClass.getMethod("dumpCoverageData", coverageFile.getClass(), boolean.class, boolean.class); dumpCoverageMethod.invoke(null, coverageFile, false, false); // output path to generated coverage file so it can be parsed by a test harness if // needed mResults.putString(REPORT_KEY_COVERAGE_PATH, coverageFilePath); // also output a more user friendly msg final String currentStream = mResults.getString( Instrumentation.REPORT_KEY_STREAMRESULT); mResults.putString(Instrumentation.REPORT_KEY_STREAMRESULT, String.format("%s\nGenerated code coverage data to %s", currentStream, coverageFilePath)); } catch (ClassNotFoundException e) { reportEmmaError("Is emma jar on classpath?", e); } catch (SecurityException e) { reportEmmaError(e); } catch (NoSuchMethodException e) { reportEmmaError(e); } catch (IllegalArgumentException e) { reportEmmaError(e); } catch (IllegalAccessException e) { reportEmmaError(e); } catch (InvocationTargetException e) { reportEmmaError(e); } } private String getCoverageFilePath() { if (mCoverageFilePath == null) { return getTargetContext().getFilesDir().getAbsolutePath() + File.separator + DEFAULT_COVERAGE_FILE_NAME; } else { return mCoverageFilePath; } } private void reportEmmaError(Exception e) { reportEmmaError("", e); } private void reportEmmaError(String hint, Exception e) { String msg = "Failed to generate emma coverage. " + hint; Log.e(LOG_TAG, msg, e); mResults.putString(Instrumentation.REPORT_KEY_STREAMRESULT, "\nError: " + msg); } // TODO kill this, use status() and prettyprint model for better output private class StringResultPrinter extends ResultPrinter { public StringResultPrinter(PrintStream writer) { super(writer); } synchronized void print(TestResult result, long runTime) { printHeader(runTime); printFooter(result); } } /** * This class sends status reports back to the IInstrumentationWatcher about * which suite each test belongs. */ private class SuiteAssignmentPrinter implements TestListener { private Bundle mTestResult; private long mStartTime; private long mEndTime; private boolean mTimingValid; public SuiteAssignmentPrinter() { } /** * send a status for the start of a each test, so long tests can be seen as "running" */ public void startTest(Test test) { mTimingValid = true; mStartTime = System.currentTimeMillis(); } /** * @see junit.framework.TestListener#addError(Test, Throwable) */ public void addError(Test test, Throwable t) { mTimingValid = false; } /** * @see junit.framework.TestListener#addFailure(Test, AssertionFailedError) */ public void addFailure(Test test, AssertionFailedError t) { mTimingValid = false; } /** * @see junit.framework.TestListener#endTest(Test) */ public void endTest(Test test) { float runTime; String assignmentSuite; mEndTime = System.currentTimeMillis(); mTestResult = new Bundle(); if (!mTimingValid || mStartTime < 0) { assignmentSuite = "NA"; runTime = -1; } else { runTime = mEndTime - mStartTime; if (runTime < SMALL_SUITE_MAX_RUNTIME && !InstrumentationTestCase.class.isAssignableFrom(test.getClass())) { assignmentSuite = SMALL_SUITE; } else if (runTime < MEDIUM_SUITE_MAX_RUNTIME) { assignmentSuite = MEDIUM_SUITE; } else { assignmentSuite = LARGE_SUITE; } } // Clear mStartTime so that we can verify that it gets set next time. mStartTime = -1; mTestResult.putString(Instrumentation.REPORT_KEY_STREAMRESULT, test.getClass().getName() + "#" + ((TestCase) test).getName() + "\nin " + assignmentSuite + " suite\nrunTime: " + String.valueOf(runTime) + "\n"); mTestResult.putFloat(REPORT_KEY_RUN_TIME, runTime); mTestResult.putString(REPORT_KEY_SUITE_ASSIGNMENT, assignmentSuite); sendStatus(0, mTestResult); } } /** * This class sends status reports back to the IInstrumentationWatcher */ private class WatcherResultPrinter implements TestListener, PerformanceResultsWriter { private final Bundle mResultTemplate; Bundle mTestResult; int mTestNum = 0; int mTestResultCode = 0; String mTestClass = null; PerformanceCollector mPerfCollector = new PerformanceCollector(); boolean mIsTimedTest = false; boolean mIncludeDetailedStats = false; public WatcherResultPrinter(int numTests) { mResultTemplate = new Bundle(); mResultTemplate.putString(Instrumentation.REPORT_KEY_IDENTIFIER, REPORT_VALUE_ID); mResultTemplate.putInt(REPORT_KEY_NUM_TOTAL, numTests); } /** * send a status for the start of a each test, so long tests can be seen * as "running" */ public void startTest(Test test) { String testClass = test.getClass().getName(); String testName = ((TestCase)test).getName(); mTestResult = new Bundle(mResultTemplate); mTestResult.putString(REPORT_KEY_NAME_CLASS, testClass); mTestResult.putString(REPORT_KEY_NAME_TEST, testName); mTestResult.putInt(REPORT_KEY_NUM_CURRENT, ++mTestNum); // pretty printing if (testClass != null && !testClass.equals(mTestClass)) { mTestResult.putString(Instrumentation.REPORT_KEY_STREAMRESULT, String.format("\n%s:", testClass)); mTestClass = testClass; } else { mTestResult.putString(Instrumentation.REPORT_KEY_STREAMRESULT, ""); } // The delay_msec parameter is normally used to provide buffers of idle time // for power measurement purposes. To make sure there is a delay before and after // every test in a suite, we delay *after* every test (see endTest below) and also // delay *before* the first test. So, delay test1 delay test2 delay. try { if (mTestNum == 1) Thread.sleep(mDelayMsec); } catch (InterruptedException e) { throw new IllegalStateException(e); } sendStatus(REPORT_VALUE_RESULT_START, mTestResult); mTestResultCode = 0; mIsTimedTest = false; mIncludeDetailedStats = false; try { // Look for TimedTest annotation on both test class and test method if (test.getClass().getMethod(testName).isAnnotationPresent(TimedTest.class)) { mIsTimedTest = true; mIncludeDetailedStats = test.getClass().getMethod(testName).getAnnotation( TimedTest.class).includeDetailedStats(); } else if (test.getClass().isAnnotationPresent(TimedTest.class)) { mIsTimedTest = true; mIncludeDetailedStats = test.getClass().getAnnotation( TimedTest.class).includeDetailedStats(); } } catch (SecurityException e) { throw new IllegalStateException(e); } catch (NoSuchMethodException e) { throw new IllegalStateException(e); } if (mIsTimedTest && mIncludeDetailedStats) { mPerfCollector.beginSnapshot(""); } else if (mIsTimedTest) { mPerfCollector.startTiming(""); } } /** * @see junit.framework.TestListener#addError(Test, Throwable) */ public void addError(Test test, Throwable t) { mTestResult.putString(REPORT_KEY_STACK, BaseTestRunner.getFilteredTrace(t)); mTestResultCode = REPORT_VALUE_RESULT_ERROR; // pretty printing mTestResult.putString(Instrumentation.REPORT_KEY_STREAMRESULT, String.format("\nError in %s:\n%s", ((TestCase)test).getName(), BaseTestRunner.getFilteredTrace(t))); } /** * @see junit.framework.TestListener#addFailure(Test, AssertionFailedError) */ public void addFailure(Test test, AssertionFailedError t) { mTestResult.putString(REPORT_KEY_STACK, BaseTestRunner.getFilteredTrace(t)); mTestResultCode = REPORT_VALUE_RESULT_FAILURE; // pretty printing mTestResult.putString(Instrumentation.REPORT_KEY_STREAMRESULT, String.format("\nFailure in %s:\n%s", ((TestCase)test).getName(), BaseTestRunner.getFilteredTrace(t))); } /** * @see junit.framework.TestListener#endTest(Test) */ public void endTest(Test test) { if (mIsTimedTest && mIncludeDetailedStats) { mTestResult.putAll(mPerfCollector.endSnapshot()); } else if (mIsTimedTest) { writeStopTiming(mPerfCollector.stopTiming("")); } if (mTestResultCode == 0) { mTestResult.putString(Instrumentation.REPORT_KEY_STREAMRESULT, "."); } sendStatus(mTestResultCode, mTestResult); try { // Sleep after every test, if specified Thread.sleep(mDelayMsec); } catch (InterruptedException e) { throw new IllegalStateException(e); } } public void writeBeginSnapshot(String label) { // Do nothing } public void writeEndSnapshot(Bundle results) { // Copy all snapshot data fields into mResults, which is outputted // via Instrumentation.finish mResults.putAll(results); } public void writeStartTiming(String label) { // Do nothing } public void writeStopTiming(Bundle results) { // Copy results into mTestResult by flattening list of iterations, // which is outputted via WatcherResultPrinter.endTest int i = 0; for (Parcelable p : results.getParcelableArrayList(PerformanceCollector.METRIC_KEY_ITERATIONS)) { Bundle iteration = (Bundle)p; String index = "iteration" + i + "."; mTestResult.putString(index + PerformanceCollector.METRIC_KEY_LABEL, iteration.getString(PerformanceCollector.METRIC_KEY_LABEL)); mTestResult.putLong(index + PerformanceCollector.METRIC_KEY_CPU_TIME, iteration.getLong(PerformanceCollector.METRIC_KEY_CPU_TIME)); mTestResult.putLong(index + PerformanceCollector.METRIC_KEY_EXECUTION_TIME, iteration.getLong(PerformanceCollector.METRIC_KEY_EXECUTION_TIME)); i++; } } public void writeMeasurement(String label, long value) { mTestResult.putLong(label, value); } public void writeMeasurement(String label, float value) { mTestResult.putFloat(label, value); } public void writeMeasurement(String label, String value) { mTestResult.putString(label, value); } // TODO report the end of the cycle } }