[deliverable/tracecompass.git] / tmf / org.eclipse.tracecompass.tmf.core / src / org / eclipse / tracecompass / tmf / core / trace / ITmfTrace.java

/*******************************************************************************
 * Copyright (c) 2009, 2014 Ericsson, École Polytechnique de Montréal
 *
 * All rights reserved. This program and the accompanying materials are
 * made available under the terms of the Eclipse Public License v1.0 which
 * accompanies this distribution, and is available at
 * http://www.eclipse.org/legal/epl-v10.html
 *
 * Contributors:
 *   Francois Chouinard - Initial API and implementation
 *   Francois Chouinard - Updated as per TMF Trace Model 1.0
 *   Geneviève Bastien  - Added timestamp transforms and timestamp
 *                        creation functions
 *   Patrick Tasse - Add support for folder elements
 *******************************************************************************/

package org.eclipse.tracecompass.tmf.core.trace;

import org.eclipse.core.resources.IProject;
import org.eclipse.core.resources.IResource;
import org.eclipse.core.runtime.IStatus;
import org.eclipse.jdt.annotation.NonNull;
import org.eclipse.jdt.annotation.Nullable;
import org.eclipse.tracecompass.tmf.core.analysis.IAnalysisModule;
import org.eclipse.tracecompass.tmf.core.component.ITmfEventProvider;
import org.eclipse.tracecompass.tmf.core.event.ITmfEvent;
import org.eclipse.tracecompass.tmf.core.event.aspect.ITmfEventAspect;
import org.eclipse.tracecompass.tmf.core.exceptions.TmfTraceException;
import org.eclipse.tracecompass.tmf.core.synchronization.ITmfTimestampTransform;
import org.eclipse.tracecompass.tmf.core.timestamp.ITmfTimestamp;
import org.eclipse.tracecompass.tmf.core.timestamp.TmfTimeRange;
import org.eclipse.tracecompass.tmf.core.trace.indexer.ITmfTraceIndexer;
import org.eclipse.tracecompass.tmf.core.trace.location.ITmfLocation;

/**
 * The event stream structure in TMF. In its basic form, a trace has:
 * <ul>
 * <li> an associated Eclipse resource
 * <li> a path to its location on the file system
 * <li> the type of the events it contains
 * <li> the number of events it contains
 * <li> the time range (span) of the events it contains
 * </ul>
 * Concrete ITmfTrace classes have to provide a parameter-less constructor and
 * an initialization method (<i>initTrace</i>) if they are to be opened from the
 * Project View. Also, a validation method (<i>validate</i>) has to be provided
 * to ensure that the trace is of the correct type.
 * <p>
 * A trace can be accessed simultaneously from multiple threads by various
 * application components. To avoid obvious multi-threading issues, the trace
 * uses an ITmfContext as a synchronization aid for its read operations.
 * <p>
 * A proper ITmfContext can be obtained by performing a seek operation on the
 * trace. Seek operations can be performed for a particular event (by rank or
 * timestamp) or for a plain trace location.
 * <p>
 * <b>Example 1</b>: Process a whole trace
 * <pre>
 * ITmfContext context = trace.seekEvent(0);
 * ITmfEvent event = trace.getNext(context);
 * while (event != null) {
 *     processEvent(event);
 *     event = trace.getNext(context);
 * }
 * </pre>
 * <b>Example 2</b>: Process 50 events starting from the 1000th event
 * <pre>
 * int nbEventsRead = 0;
 * ITmfContext context = trace.seekEvent(1000);
 * ITmfEvent event = trace.getNext(context);
 * while (event != null && nbEventsRead < 50) {
 *     nbEventsRead++;
 *     processEvent(event);
 *     event = trace.getNext(context);
 * }
 * </pre>
 * <b>Example 3</b>: Process the events between 2 timestamps (inclusive)
 * <pre>
 * ITmfTimestamp startTime = ...;
 * ITmfTimestamp endTime = ...;
 * ITmfContext context = trace.seekEvent(startTime);
 * ITmfEvent event = trace.getNext(context);
 * while (event != null && event.getTimestamp().compareTo(endTime) <= 0) {
 *     processEvent(event);
 *     event = trace.getNext(context);
 * }
 * </pre>
 *
 * A trace is also an event provider so it can process event requests
 * asynchronously (and coalesce compatible, concurrent requests).
 * <p>
 *
 * <b>Example 4</b>: Process a whole trace (see ITmfEventRequest for
 * variants)
 * <pre>
 * ITmfRequest request = new TmfEventRequest&lt;MyEventType&gt;(MyEventType.class) {
 *     &#064;Override
 *     public void handleData(MyEventType event) {
 *         super.handleData(event);
 *         processEvent(event);
 *     }
 *
 *     &#064;Override
 *     public void handleCompleted() {
 *         finish();
 *         super.handleCompleted();
 *     }
 * };
 *
 * fTrace.handleRequest(request);
 * if (youWant) {
 *     request.waitForCompletion();
 * }
 * </pre>
 *
 * @version 1.0
 * @author Francois Chouinard
 *
 * @see ITmfContext
 * @see ITmfEvent
 * @see ITmfTraceIndexer
 * @see ITmfEventParser
 */
public interface ITmfTrace extends ITmfEventProvider {

    // ------------------------------------------------------------------------
    // Constants
    // ------------------------------------------------------------------------

    /**
     * The default trace cache size
     */
    public static final int DEFAULT_TRACE_CACHE_SIZE = 1000;

    // ------------------------------------------------------------------------
    // Initializers
    // ------------------------------------------------------------------------

    /**
     * Initialize a newly instantiated "empty" trace object. This is used to
     * properly parameterize an ITmfTrace instantiated with its parameterless
     * constructor.
     * <p>
     * Typically, the parameterless constructor will provide the block size and
     * its associated parser and indexer.
     *
     * @param resource
     *            the trace resource
     * @param path
     *            the trace path. The path should suitable for passing to
     *            <code>java.io.File(String)</code> and should use the
     *            platform-dependent path separator.
     * @param type
     *            the trace event type
     * @throws TmfTraceException
     *             If we couldn't open the trace
     */
    void initTrace(IResource resource, String path, Class<? extends ITmfEvent> type) throws TmfTraceException;

    /**
     * Initialize a newly instantiated "empty" trace object. This is used to
     * properly parameterize an ITmfTrace instantiated with its parameterless
     * constructor.
     * <p>
     * Typically, the parameterless constructor will provide the block size and
     * its associated parser and indexer.
     *
     * @param resource
     *            the trace resource
     * @param path
     *            the trace path
     * @param type
     *            the trace event type
     * @param name
     *            the trace name
     * @param traceTypeId
     *            the trace type id
     * @throws TmfTraceException
     *             If we couldn't open the trace
     */
    void initTrace(IResource resource, String path, Class<? extends ITmfEvent> type, String name, String traceTypeId) throws TmfTraceException;

    /**
     * Validate that the trace is of the correct type. The implementation should
     * return a TraceValidationStatus to indicate success with a certain level
     * of confidence.
     *
     * @param project
     *            the eclipse project
     * @param path
     *            the trace path. The path should suitable for passing to
     *            <code>java.io.File(String)</code> and should use the
     *            platform-dependent path separator.
     *
     * @return an IStatus object with validation result. Use severity OK to
     *         indicate success.
     * @see TraceValidationStatus
     */
    IStatus validate(IProject project, String path);

    // ------------------------------------------------------------------------
    // Basic getters
    // ------------------------------------------------------------------------

    /**
     * @return the associated trace resource
     */
    IResource getResource();

    /**
     * Get the trace type id
     *
     * @return the trace type id
     */
    @Nullable String getTraceTypeId();

    /**
     * @return the trace path
     */
    String getPath();

    /**
     * @return the trace cache size
     */
    int getCacheSize();

    /**
     * Index the trace. Depending on the trace type, this could be done at the
     * constructor or initTrace phase too, so this could be implemented as a
     * no-op.
     *
     * @param waitForCompletion
     *            Should we block the caller until indexing is finished, or not.
     */
    void indexTrace(boolean waitForCompletion);

    // ------------------------------------------------------------------------
    // Analysis getters
    // ------------------------------------------------------------------------

    /**
     * Returns an analysis module with the given ID.
     *
     * @param id
     *            The analysis module ID
     * @return The {@link IAnalysisModule} object, or null if an analysis with
     *         the given ID does no exist.
     */
    @Nullable IAnalysisModule getAnalysisModule(String id);

    /**
     * Get a list of all analysis modules currently available for this trace.
     *
     * @return An iterable view of the analysis modules
     */
    @NonNull Iterable<@NonNull IAnalysisModule> getAnalysisModules();

    // ------------------------------------------------------------------------
    // Aspect getters
    // ------------------------------------------------------------------------

    /**
     * Return the pre-defined set of event aspects exposed by this trace.
     *
     * It should not be null, but could be empty. You are suggested to use at
     * least the ones defined in {@link TmfTrace#BASE_ASPECTS}.
     *
     * @return The event aspects for this trace
     */
    @NonNull Iterable<@NonNull ITmfEventAspect> getEventAspects();

    // ------------------------------------------------------------------------
    // Trace characteristics getters
    // ------------------------------------------------------------------------

    /**
     * @return the number of events in the trace
     */
    long getNbEvents();

    /**
     * @return the trace time range
     */
    @NonNull TmfTimeRange getTimeRange();

    /**
     * @return the timestamp of the first trace event
     */
    @NonNull ITmfTimestamp getStartTime();

    /**
     * @return the timestamp of the last trace event
     */
    @NonNull ITmfTimestamp getEndTime();

    /**
     * @return the streaming interval in ms (0 if not a streaming trace)
     */
    long getStreamingInterval();

    // ------------------------------------------------------------------------
    // Trace positioning getters
    // ------------------------------------------------------------------------

    /**
     * @return the current trace location
     */
    ITmfLocation getCurrentLocation();

    /**
     * Returns the ratio (proportion) corresponding to the specified location.
     *
     * @param location
     *            a trace specific location
     * @return a floating-point number between 0.0 (beginning) and 1.0 (end)
     */
    double getLocationRatio(ITmfLocation location);

    // ------------------------------------------------------------------------
    // SeekEvent operations (returning a trace context)
    // ------------------------------------------------------------------------

    /**
     * Position the trace at the specified (trace specific) location.
     * <p>
     * A null location is interpreted as seeking for the first event of the
     * trace.
     * <p>
     * If not null, the location requested must be valid otherwise the returned
     * context is undefined (up to the implementation to recover if possible).
     * <p>
     *
     * @param location
     *            the trace specific location
     * @return a context which can later be used to read the corresponding event
     */
    ITmfContext seekEvent(ITmfLocation location);

    /**
     * Position the trace at the 'rank'th event in the trace.
     * <p>
     * A rank <= 0 is interpreted as seeking for the first event of the trace.
     * <p>
     * If the requested rank is beyond the last trace event, the context
     * returned will yield a null event if used in a subsequent read.
     *
     * @param rank
     *            the event rank
     * @return a context which can later be used to read the corresponding event
     */
    ITmfContext seekEvent(long rank);

    /**
     * Position the trace at the first event with the specified timestamp. If
     * there is no event with the requested timestamp, a context pointing to the
     * next chronological event is returned.
     * <p>
     * A null timestamp is interpreted as seeking for the first event of the
     * trace.
     * <p>
     * If the requested timestamp is beyond the last trace event, the context
     * returned will yield a null event if used in a subsequent read.
     *
     * @param timestamp
     *            the timestamp of desired event
     * @return a context which can later be used to read the corresponding event
     */
    ITmfContext seekEvent(ITmfTimestamp timestamp);

    /**
     * Position the trace at the event located at the specified ratio in the
     * trace file.
     * <p>
     * The notion of ratio (0.0 <= r <= 1.0) is trace specific and left
     * voluntarily vague. Typically, it would refer to the event proportional
     * rank (arguably more intuitive) or timestamp in the trace file.
     *
     * @param ratio
     *            the proportional 'rank' in the trace
     * @return a context which can later be used to read the corresponding event
     */
    ITmfContext seekEvent(double ratio);

    /**
     * Returns the initial range offset
     *
     * @return the initial range offset
     */
    ITmfTimestamp getInitialRangeOffset();

    /**
     * Returns the ID of the host this trace is from. The host ID is not
     * necessarily the hostname, but should be a unique identifier for the
     * machine on which the trace was taken. It can be used to determine if two
     * traces were taken on the exact same machine (timestamp are already
     * synchronized, resources with same id are the same if taken at the same
     * time, etc).
     *
     * @return The host id of this trace
     */
    @NonNull String getHostId();

    // ------------------------------------------------------------------------
    // Timestamp transformation functions
    // ------------------------------------------------------------------------

    /**
     * Returns the timestamp transformation for this trace
     *
     * @return the timestamp transform
     */
    ITmfTimestampTransform getTimestampTransform();

    /**
     * Sets the trace's timestamp transform
     *
     * @param tt
     *            The timestamp transform for all timestamps of this trace
     */
    void setTimestampTransform(final ITmfTimestampTransform tt);

    /**
     * Creates a timestamp for this trace, using the transformation formula
     *
     * @param ts
     *            The time in nanoseconds with which to create the timestamp
     * @return The new timestamp
     */
    @NonNull ITmfTimestamp createTimestamp(long ts);

}
Commit	Line	Data
	1	/*******************************************************************************
	2	* Copyright (c) 2009, 2014 Ericsson, École Polytechnique de Montréal
	3	*
	4	* All rights reserved. This program and the accompanying materials are
	5	* made available under the terms of the Eclipse Public License v1.0 which
	6	* accompanies this distribution, and is available at
	7	* http://www.eclipse.org/legal/epl-v10.html
	8	*
	9	* Contributors:
	10	* Francois Chouinard - Initial API and implementation
	11	* Francois Chouinard - Updated as per TMF Trace Model 1.0
	12	* Geneviève Bastien - Added timestamp transforms and timestamp
	13	* creation functions
	14	* Patrick Tasse - Add support for folder elements
	15	*******************************************************************************/
	16
	17	package org.eclipse.tracecompass.tmf.core.trace;
	18
	19	import org.eclipse.core.resources.IProject;
	20	import org.eclipse.core.resources.IResource;
	21	import org.eclipse.core.runtime.IStatus;
	22	import org.eclipse.jdt.annotation.NonNull;
	23	import org.eclipse.jdt.annotation.Nullable;
	24	import org.eclipse.tracecompass.tmf.core.analysis.IAnalysisModule;
	25	import org.eclipse.tracecompass.tmf.core.component.ITmfEventProvider;
	26	import org.eclipse.tracecompass.tmf.core.event.ITmfEvent;
	27	import org.eclipse.tracecompass.tmf.core.event.aspect.ITmfEventAspect;
	28	import org.eclipse.tracecompass.tmf.core.exceptions.TmfTraceException;
	29	import org.eclipse.tracecompass.tmf.core.synchronization.ITmfTimestampTransform;
	30	import org.eclipse.tracecompass.tmf.core.timestamp.ITmfTimestamp;
	31	import org.eclipse.tracecompass.tmf.core.timestamp.TmfTimeRange;
	32	import org.eclipse.tracecompass.tmf.core.trace.indexer.ITmfTraceIndexer;
	33	import org.eclipse.tracecompass.tmf.core.trace.location.ITmfLocation;
	34
	35	/**
	36	* The event stream structure in TMF. In its basic form, a trace has:
	37	* <ul>
	38	* <li> an associated Eclipse resource
	39	* <li> a path to its location on the file system
	40	* <li> the type of the events it contains
	41	* <li> the number of events it contains
	42	* <li> the time range (span) of the events it contains
	43	* </ul>
	44	* Concrete ITmfTrace classes have to provide a parameter-less constructor and
	45	* an initialization method (<i>initTrace</i>) if they are to be opened from the
	46	* Project View. Also, a validation method (<i>validate</i>) has to be provided
	47	* to ensure that the trace is of the correct type.
	48	* <p>
	49	* A trace can be accessed simultaneously from multiple threads by various
	50	* application components. To avoid obvious multi-threading issues, the trace
	51	* uses an ITmfContext as a synchronization aid for its read operations.
	52	* <p>
	53	* A proper ITmfContext can be obtained by performing a seek operation on the
	54	* trace. Seek operations can be performed for a particular event (by rank or
	55	* timestamp) or for a plain trace location.
	56	* <p>
	57	* <b>Example 1</b>: Process a whole trace
	58	* <pre>
	59	* ITmfContext context = trace.seekEvent(0);
	60	* ITmfEvent event = trace.getNext(context);
	61	* while (event != null) {
	62	* processEvent(event);
	63	* event = trace.getNext(context);
	64	* }
	65	* </pre>
	66	* <b>Example 2</b>: Process 50 events starting from the 1000th event
	67	* <pre>
	68	* int nbEventsRead = 0;
	69	* ITmfContext context = trace.seekEvent(1000);
	70	* ITmfEvent event = trace.getNext(context);
	71	* while (event != null && nbEventsRead < 50) {
	72	* nbEventsRead++;
	73	* processEvent(event);
	74	* event = trace.getNext(context);
	75	* }
	76	* </pre>
	77	* <b>Example 3</b>: Process the events between 2 timestamps (inclusive)
	78	* <pre>
	79	* ITmfTimestamp startTime = ...;
	80	* ITmfTimestamp endTime = ...;
	81	* ITmfContext context = trace.seekEvent(startTime);
	82	* ITmfEvent event = trace.getNext(context);
	83	* while (event != null && event.getTimestamp().compareTo(endTime) <= 0) {
	84	* processEvent(event);
	85	* event = trace.getNext(context);
	86	* }
	87	* </pre>
	88	*
	89	* A trace is also an event provider so it can process event requests
	90	* asynchronously (and coalesce compatible, concurrent requests).
	91	* <p>
	92	*
	93	* <b>Example 4</b>: Process a whole trace (see ITmfEventRequest for
	94	* variants)
	95	* <pre>
	96	* ITmfRequest request = new TmfEventRequest<MyEventType>(MyEventType.class) {
	97	* @Override
	98	* public void handleData(MyEventType event) {
	99	* super.handleData(event);
	100	* processEvent(event);
	101	* }
	102	*
	103	* @Override
	104	* public void handleCompleted() {
	105	* finish();
	106	* super.handleCompleted();
	107	* }
	108	* };
	109	*
	110	* fTrace.handleRequest(request);
	111	* if (youWant) {
	112	* request.waitForCompletion();
	113	* }
	114	* </pre>
	115	*
	116	* @version 1.0
	117	* @author Francois Chouinard
	118	*
	119	* @see ITmfContext
	120	* @see ITmfEvent
	121	* @see ITmfTraceIndexer
	122	* @see ITmfEventParser
	123	*/
	124	public interface ITmfTrace extends ITmfEventProvider {
	125
	126	// ------------------------------------------------------------------------
	127	// Constants
	128	// ------------------------------------------------------------------------
	129
	130	/**
	131	* The default trace cache size
	132	*/
	133	public static final int DEFAULT_TRACE_CACHE_SIZE = 1000;
	134
	135	// ------------------------------------------------------------------------
	136	// Initializers
	137	// ------------------------------------------------------------------------
	138
	139	/**
	140	* Initialize a newly instantiated "empty" trace object. This is used to
	141	* properly parameterize an ITmfTrace instantiated with its parameterless
	142	* constructor.
	143	* <p>
	144	* Typically, the parameterless constructor will provide the block size and
	145	* its associated parser and indexer.
	146	*
	147	* @param resource
	148	* the trace resource
	149	* @param path
	150	* the trace path. The path should suitable for passing to
	151	* <code>java.io.File(String)</code> and should use the
	152	* platform-dependent path separator.
	153	* @param type
	154	* the trace event type
	155	* @throws TmfTraceException
	156	* If we couldn't open the trace
	157	*/
	158	void initTrace(IResource resource, String path, Class<? extends ITmfEvent> type) throws TmfTraceException;
	159
	160	/**
	161	* Initialize a newly instantiated "empty" trace object. This is used to
	162	* properly parameterize an ITmfTrace instantiated with its parameterless
	163	* constructor.
	164	* <p>
	165	* Typically, the parameterless constructor will provide the block size and
	166	* its associated parser and indexer.
	167	*
	168	* @param resource
	169	* the trace resource
	170	* @param path
	171	* the trace path
	172	* @param type
	173	* the trace event type
	174	* @param name
	175	* the trace name
	176	* @param traceTypeId
	177	* the trace type id
	178	* @throws TmfTraceException
	179	* If we couldn't open the trace
	180	*/
	181	void initTrace(IResource resource, String path, Class<? extends ITmfEvent> type, String name, String traceTypeId) throws TmfTraceException;
	182
	183	/**
	184	* Validate that the trace is of the correct type. The implementation should
	185	* return a TraceValidationStatus to indicate success with a certain level
	186	* of confidence.
	187	*
	188	* @param project
	189	* the eclipse project
	190	* @param path
	191	* the trace path. The path should suitable for passing to
	192	* <code>java.io.File(String)</code> and should use the
	193	* platform-dependent path separator.
	194	*
	195	* @return an IStatus object with validation result. Use severity OK to
	196	* indicate success.
	197	* @see TraceValidationStatus
	198	*/
	199	IStatus validate(IProject project, String path);
	200
	201	// ------------------------------------------------------------------------
	202	// Basic getters
	203	// ------------------------------------------------------------------------
	204
	205	/**
	206	* @return the associated trace resource
	207	*/
	208	IResource getResource();
	209
	210	/**
	211	* Get the trace type id
	212	*
	213	* @return the trace type id
	214	*/
	215	@Nullable String getTraceTypeId();
	216
	217	/**
	218	* @return the trace path
	219	*/
	220	String getPath();
	221
	222	/**
	223	* @return the trace cache size
	224	*/
	225	int getCacheSize();
	226
	227	/**
	228	* Index the trace. Depending on the trace type, this could be done at the
	229	* constructor or initTrace phase too, so this could be implemented as a
	230	* no-op.
	231	*
	232	* @param waitForCompletion
	233	* Should we block the caller until indexing is finished, or not.
	234	*/
	235	void indexTrace(boolean waitForCompletion);
	236
	237	// ------------------------------------------------------------------------
	238	// Analysis getters
	239	// ------------------------------------------------------------------------
	240
	241	/**
	242	* Returns an analysis module with the given ID.
	243	*
	244	* @param id
	245	* The analysis module ID
	246	* @return The {@link IAnalysisModule} object, or null if an analysis with
	247	* the given ID does no exist.
	248	*/
	249	@Nullable IAnalysisModule getAnalysisModule(String id);
	250
	251	/**
	252	* Get a list of all analysis modules currently available for this trace.
	253	*
	254	* @return An iterable view of the analysis modules
	255	*/
	256	@NonNull Iterable<@NonNull IAnalysisModule> getAnalysisModules();
	257
	258	// ------------------------------------------------------------------------
	259	// Aspect getters
	260	// ------------------------------------------------------------------------
	261
	262	/**
	263	* Return the pre-defined set of event aspects exposed by this trace.
	264	*
	265	* It should not be null, but could be empty. You are suggested to use at
	266	* least the ones defined in {@link TmfTrace#BASE_ASPECTS}.
	267	*
	268	* @return The event aspects for this trace
	269	*/
	270	@NonNull Iterable<@NonNull ITmfEventAspect> getEventAspects();
	271
	272	// ------------------------------------------------------------------------
	273	// Trace characteristics getters
	274	// ------------------------------------------------------------------------
	275
	276	/**
	277	* @return the number of events in the trace
	278	*/
	279	long getNbEvents();
	280
	281	/**
	282	* @return the trace time range
	283	*/
	284	@NonNull TmfTimeRange getTimeRange();
	285
	286	/**
	287	* @return the timestamp of the first trace event
	288	*/
	289	@NonNull ITmfTimestamp getStartTime();
	290
	291	/**
	292	* @return the timestamp of the last trace event
	293	*/
	294	@NonNull ITmfTimestamp getEndTime();
	295
	296	/**
	297	* @return the streaming interval in ms (0 if not a streaming trace)
	298	*/
	299	long getStreamingInterval();
	300
	301	// ------------------------------------------------------------------------
	302	// Trace positioning getters
	303	// ------------------------------------------------------------------------
	304
	305	/**
	306	* @return the current trace location
	307	*/
	308	ITmfLocation getCurrentLocation();
	309
	310	/**
	311	* Returns the ratio (proportion) corresponding to the specified location.
	312	*
	313	* @param location
	314	* a trace specific location
	315	* @return a floating-point number between 0.0 (beginning) and 1.0 (end)
	316	*/
	317	double getLocationRatio(ITmfLocation location);
	318
	319	// ------------------------------------------------------------------------
	320	// SeekEvent operations (returning a trace context)
	321	// ------------------------------------------------------------------------
	322
	323	/**
	324	* Position the trace at the specified (trace specific) location.
	325	* <p>
	326	* A null location is interpreted as seeking for the first event of the
	327	* trace.
	328	* <p>
	329	* If not null, the location requested must be valid otherwise the returned
	330	* context is undefined (up to the implementation to recover if possible).
	331	* <p>
	332	*
	333	* @param location
	334	* the trace specific location
	335	* @return a context which can later be used to read the corresponding event
	336	*/
	337	ITmfContext seekEvent(ITmfLocation location);
	338
	339	/**
	340	* Position the trace at the 'rank'th event in the trace.
	341	* <p>
	342	* A rank <= 0 is interpreted as seeking for the first event of the trace.
	343	* <p>
	344	* If the requested rank is beyond the last trace event, the context
	345	* returned will yield a null event if used in a subsequent read.
	346	*
	347	* @param rank
	348	* the event rank
	349	* @return a context which can later be used to read the corresponding event
	350	*/
	351	ITmfContext seekEvent(long rank);
	352
	353	/**
	354	* Position the trace at the first event with the specified timestamp. If
	355	* there is no event with the requested timestamp, a context pointing to the
	356	* next chronological event is returned.
	357	* <p>
	358	* A null timestamp is interpreted as seeking for the first event of the
	359	* trace.
	360	* <p>
	361	* If the requested timestamp is beyond the last trace event, the context
	362	* returned will yield a null event if used in a subsequent read.
	363	*
	364	* @param timestamp
	365	* the timestamp of desired event
	366	* @return a context which can later be used to read the corresponding event
	367	*/
	368	ITmfContext seekEvent(ITmfTimestamp timestamp);
	369
	370	/**
	371	* Position the trace at the event located at the specified ratio in the
	372	* trace file.
	373	* <p>
	374	* The notion of ratio (0.0 <= r <= 1.0) is trace specific and left
	375	* voluntarily vague. Typically, it would refer to the event proportional
	376	* rank (arguably more intuitive) or timestamp in the trace file.
	377	*
	378	* @param ratio
	379	* the proportional 'rank' in the trace
	380	* @return a context which can later be used to read the corresponding event
	381	*/
	382	ITmfContext seekEvent(double ratio);
	383
	384	/**
	385	* Returns the initial range offset
	386	*
	387	* @return the initial range offset
	388	*/
	389	ITmfTimestamp getInitialRangeOffset();
	390
	391	/**
	392	* Returns the ID of the host this trace is from. The host ID is not
	393	* necessarily the hostname, but should be a unique identifier for the
	394	* machine on which the trace was taken. It can be used to determine if two
	395	* traces were taken on the exact same machine (timestamp are already
	396	* synchronized, resources with same id are the same if taken at the same
	397	* time, etc).
	398	*
	399	* @return The host id of this trace
	400	*/
	401	@NonNull String getHostId();
	402
	403	// ------------------------------------------------------------------------
	404	// Timestamp transformation functions
	405	// ------------------------------------------------------------------------
	406
	407	/**
	408	* Returns the timestamp transformation for this trace
	409	*
	410	* @return the timestamp transform
	411	*/
	412	ITmfTimestampTransform getTimestampTransform();
	413
	414	/**
	415	* Sets the trace's timestamp transform
	416	*
	417	* @param tt
	418	* The timestamp transform for all timestamps of this trace
	419	*/
	420	void setTimestampTransform(final ITmfTimestampTransform tt);
	421
	422	/**
	423	* Creates a timestamp for this trace, using the transformation formula
	424	*
	425	* @param ts
	426	* The time in nanoseconds with which to create the timestamp
	427	* @return The new timestamp
	428	*/
	429	@NonNull ITmfTimestamp createTimestamp(long ts);
	430
	431	}