import org.eclipse.tracecompass.tmf.core.request.ITmfEventRequest;
import org.eclipse.tracecompass.tmf.core.request.TmfEventRequest;
import org.eclipse.tracecompass.tmf.core.signal.TmfSelectionRangeUpdatedSignal;
-import org.eclipse.tracecompass.tmf.core.timestamp.ITmfTimestamp;
import org.eclipse.tracecompass.tmf.core.timestamp.TmfTimeRange;
import org.eclipse.tracecompass.tmf.core.timestamp.TmfTimestamp;
import org.eclipse.tracecompass.tmf.ctf.core.tests.shared.CtfTmfTestTraceUtils;
/** Time-out tests after 60 seconds */
@Rule
- public TestRule globalTimeout= new Timeout(1, TimeUnit.MINUTES);
+ public TestRule globalTimeout = new Timeout(1, TimeUnit.MINUTES);
// ------------------------------------------------------------------------
// Constants
long foregroundStartTime = fStartTime + ((fEndTime - fStartTime) / 4);
long foregroundEndTime = fStartTime + ((fEndTime - fStartTime) / 2);
- fForegroundTimeRange = new TmfTimeRange(new TmfTimestamp(foregroundStartTime, ITmfTimestamp.NANOSECOND_SCALE),
- new TmfTimestamp(foregroundEndTime, ITmfTimestamp.NANOSECOND_SCALE));
+ fForegroundTimeRange = new TmfTimeRange(TmfTimestamp.fromNanos(foregroundStartTime),
+ TmfTimestamp.fromNanos(foregroundEndTime));
}
/**
ForegroundRequest foreground3 = new ForegroundRequest(TmfTimeRange.ETERNITY);
fixture.sendRequest(foreground3);
- TmfSelectionRangeUpdatedSignal signal3 = new TmfSelectionRangeUpdatedSignal(this, new TmfTimestamp(fForegroundTimeRange.getStartTime()));
+ TmfSelectionRangeUpdatedSignal signal3 = new TmfSelectionRangeUpdatedSignal(this, fForegroundTimeRange.getStartTime());
fixture.broadcast(signal3);
try {
public void TestMultiRequest4() {
ForegroundRequest foreground4 = new ForegroundRequest(fForegroundTimeRange);
fixture.sendRequest(foreground4);
- TmfSelectionRangeUpdatedSignal signal4 = new TmfSelectionRangeUpdatedSignal(this, new TmfTimestamp(fStartTime + ((fEndTime - fStartTime) / 8)));
+ TmfSelectionRangeUpdatedSignal signal4 = new TmfSelectionRangeUpdatedSignal(this, TmfTimestamp.fromSeconds(fStartTime + ((fEndTime - fStartTime) / 8)));
fixture.broadcast(signal4);
try {
public void TestMultiRequest5() {
ForegroundRequest foreground5 = new ForegroundRequest(fForegroundTimeRange);
fixture.sendRequest(foreground5);
- TmfSelectionRangeUpdatedSignal signal5 = new TmfSelectionRangeUpdatedSignal(this, new TmfTimestamp(fEndTime - ((fEndTime - fStartTime) / 4)));
+ TmfSelectionRangeUpdatedSignal signal5 = new TmfSelectionRangeUpdatedSignal(this, TmfTimestamp.fromSeconds(fEndTime - ((fEndTime - fStartTime) / 4)));
fixture.broadcast(signal5);
try {
fixture.sendRequest(background6);
fixture.sendRequest(foreground6);
- TmfSelectionRangeUpdatedSignal signal6 = new TmfSelectionRangeUpdatedSignal(this, new TmfTimestamp(fStartTime + ((fEndTime - fStartTime) / 8)));
+ TmfSelectionRangeUpdatedSignal signal6 = new TmfSelectionRangeUpdatedSignal(this, TmfTimestamp.fromSeconds(fStartTime + ((fEndTime - fStartTime) / 8)));
fixture.broadcast(signal6);
try {
@Test
public void preemptedForegroundRequest() {
ForegroundRequest foreground9 = new ForegroundRequest(TmfTimeRange.ETERNITY);
- TmfTimeRange shortTimeRange = new TmfTimeRange(new TmfTimestamp(fStartTime, ITmfTimestamp.NANOSECOND_SCALE),
- new TmfTimestamp(fStartTime + ((fEndTime - fStartTime) / 16), ITmfTimestamp.NANOSECOND_SCALE));
+ TmfTimeRange shortTimeRange = new TmfTimeRange(TmfTimestamp.fromNanos(fStartTime),
+ TmfTimestamp.fromNanos(fStartTime + ((fEndTime - fStartTime) / 16)));
ForegroundRequest shortForeground = new ForegroundRequest(shortTimeRange);
fixture.sendRequest(foreground9);
try {