@Override public String toString() { return "{task=" + vertexExecution.getVertexWithAttempt() + ", sharingUnit=" + slotSharingGroupId + ", locationConstraint=" + coLocationConstraint + '}'; } }
/** * Creates a new IllegalExecutionStateException with the error message indicating * the expected and actual state. * * @param expected The expected state * @param actual The actual state */ public IllegalExecutionStateException(Execution execution, ExecutionState expected, ExecutionState actual) { super(execution.getVertexWithAttempt() + " is no longer in expected state " + expected + " but in state " + actual); } }
/** * Creates a new IllegalExecutionStateException with the error message indicating * the expected and actual state. * * @param expected The expected state * @param actual The actual state */ public IllegalExecutionStateException(Execution execution, ExecutionState expected, ExecutionState actual) { super(execution.getVertexWithAttempt() + " is no longer in expected state " + expected + " but in state " + actual); } }
@Override public String toString() { return "{task=" + vertexExecution.getVertexWithAttempt() + ", sharingUnit=" + slotSharingGroupId + ", locationConstraint=" + coLocationConstraint + '}'; } }
/** * Creates a new IllegalExecutionStateException with the error message indicating * the expected and actual state. * * @param expected The expected state * @param actual The actual state */ public IllegalExecutionStateException(Execution execution, ExecutionState expected, ExecutionState actual) { super(execution.getVertexWithAttempt() + " is no longer in expected state " + expected + " but in state " + actual); } }
@Override public String toString() { return "{task=" + vertexExecution.getVertexWithAttempt() + ", sharingUnit=" + sharingGroup + ", locationConstraint=" + locationConstraint + '}'; } }
/** * Creates a new IllegalExecutionStateException with the error message indicating * the expected and actual state. * * @param expected The expected state * @param actual The actual state */ public IllegalExecutionStateException(Execution execution, ExecutionState expected, ExecutionState actual) { super(execution.getVertexWithAttempt() + " is no longer in expected state " + expected + " but in state " + actual); } }
@Override public String toString() { return "{task=" + vertexExecution.getVertexWithAttempt() + ", sharingUnit=" + slotSharingGroupId + ", locationConstraint=" + coLocationConstraint + '}'; } }
LOG.debug("Concurrent canceling/failing of {} while deployment was in progress.", getVertexWithAttempt()); getVertexWithAttempt(), currentState);
LOG.debug("Concurrent canceling/failing of {} while deployment was in progress.", getVertexWithAttempt()); getVertexWithAttempt(), currentState);
LOG.debug("Concurrent canceling/failing of {} while deployment was in progress.", getVertexWithAttempt()); getVertexWithAttempt(), currentState);
LOG.debug("Concurrent canceling/failing of {} while deployment was in progress.", getVertexWithAttempt()); getVertexWithAttempt(), currentState);
LOG.debug("Ignoring transition of vertex {} to {} while being {}.", getVertexWithAttempt(), FAILED, current);
LOG.debug("Ignoring transition of vertex {} to {} while being {}.", getVertexWithAttempt(), FAILED, current);
assignedAllocationID = logicalSlot.getAllocationId(); LOG.info("{} is assigned resource {}_{} with {}", getVertexWithAttempt(), logicalSlot.getTaskManagerLocation().getResourceID(), logicalSlot.getPhysicalSlotNumber(),
LOG.debug("Ignoring transition of vertex {} to {} while being {}.", getVertexWithAttempt(), FAILED, current);
LOG.debug("Ignoring transition of vertex {} to {} while being {}.", getVertexWithAttempt(), FAILED, current);