setVertexParallelism(other.getVertexParallelism());
vectorProto.getVertexParallelism(), processorDescriptor, inputSpecList, outputSpecList, groupInputSpecs); return taskSpec;
@Override public String toString() { return "TaskWrapper{" + "task=" + taskRunnerCallable.getRequestId() + ", inWaitQueue=" + inWaitQueue.get() + ", inPreemptionQueue=" + inPreemptionQueue.get() + ", registeredForNotifications=" + registeredForNotifications.get() + ", canFinish=" + taskRunnerCallable.canFinish() + ", canFinish(in queue)=" + canFinishForPriority() + ", isGuaranteed=" + isGuaranteed() + ", firstAttemptStartTime=" + taskRunnerCallable.getFragmentRuntimeInfo().getFirstAttemptStartTime() + ", dagStartTime=" + taskRunnerCallable.getFragmentRuntimeInfo().getDagStartTime() + ", withinDagPriority=" + taskRunnerCallable.getFragmentRuntimeInfo().getWithinDagPriority() + ", vertexParallelism= " + taskRunnerCallable.getVertexSpec().getVertexParallelism() + ", selfAndUpstreamParallelism= " + taskRunnerCallable.getFragmentRuntimeInfo().getNumSelfAndUpstreamTasks() + ", selfAndUpstreamComplete= " + taskRunnerCallable.getFragmentRuntimeInfo().getNumSelfAndUpstreamCompletedTasks() + '}'; }
@Override public String toString() { return "TaskWrapper{" + "task=" + taskRunnerCallable.getRequestId() + ", inWaitQueue=" + inWaitQueue.get() + ", inPreemptionQueue=" + inPreemptionQueue.get() + ", registeredForNotifications=" + registeredForNotifications.get() + ", canFinish=" + taskRunnerCallable.canFinish() + ", canFinish(in queue)=" + canFinishForPriority() + ", isGuaranteed=" + isGuaranteed() + ", firstAttemptStartTime=" + taskRunnerCallable.getFragmentRuntimeInfo().getFirstAttemptStartTime() + ", dagStartTime=" + taskRunnerCallable.getFragmentRuntimeInfo().getDagStartTime() + ", withinDagPriority=" + taskRunnerCallable.getFragmentRuntimeInfo().getWithinDagPriority() + ", vertexParallelism= " + taskRunnerCallable.getVertexSpec().getVertexParallelism() + ", selfAndUpstreamParallelism= " + taskRunnerCallable.getFragmentRuntimeInfo().getNumSelfAndUpstreamTasks() + ", selfAndUpstreamComplete= " + taskRunnerCallable.getFragmentRuntimeInfo().getNumSelfAndUpstreamCompletedTasks() + '}'; }
@Override public String toString() { return requestId + " {canFinish: " + canFinish() + ", vertexParallelism: " + vertex.getVertexParallelism() + ", selfAndUpstreamParallelism: " + request.getFragmentRuntimeInfo().getNumSelfAndUpstreamTasks() + ", selfAndUpstreamComplete: " + request.getFragmentRuntimeInfo().getNumSelfAndUpstreamCompletedTasks() + ", firstAttemptStartTime: " + getFragmentRuntimeInfo().getFirstAttemptStartTime() + ", dagStartTime:" + getFragmentRuntimeInfo().getDagStartTime() + ", withinDagPriority: " + getFragmentRuntimeInfo().getWithinDagPriority() + "}"; }
hash = (53 * hash) + getVertexParallelism();
result = result && (hasVertexParallelism() == other.hasVertexParallelism()); if (hasVertexParallelism()) { result = result && (getVertexParallelism() == other.getVertexParallelism());
@Override public String toString() { return requestId + " {canFinish: " + canFinish() + ", vertexParallelism: " + vertex.getVertexParallelism() + ", selfAndUpstreamParallelism: " + request.getFragmentRuntimeInfo().getNumSelfAndUpstreamTasks() + ", selfAndUpstreamComplete: " + request.getFragmentRuntimeInfo().getNumSelfAndUpstreamCompletedTasks() + ", firstAttemptStartTime: " + getFragmentRuntimeInfo().getFirstAttemptStartTime() + ", dagStartTime:" + getFragmentRuntimeInfo().getDagStartTime() + ", withinDagPriority: " + getFragmentRuntimeInfo().getWithinDagPriority() + "}"; }