sb.append(", dagName=").append(vertex.getDagName()); sb.append(", vertexName=").append(vertex.getVertexName()); sb.append(", processor=").append(vertex.getProcessorDescriptor().getClassName()); sb.append(", numInputs=").append(vertex.getInputSpecsCount()); sb.append(", numOutputs=").append(vertex.getOutputSpecsCount());
mergeProcessorDescriptor(other.getProcessorDescriptor());
if (vectorProto.hasProcessorDescriptor()) { processorDescriptor = convertProcessorDescriptorFromProto( vectorProto.getProcessorDescriptor());
sb.append(", dagName=").append(vertex.getDagName()); sb.append(", vertexName=").append(vertex.getVertexName()); sb.append(", processor=").append(vertex.getProcessorDescriptor().getClassName()); sb.append(", numInputs=").append(vertex.getInputSpecsCount()); sb.append(", numOutputs=").append(vertex.getOutputSpecsCount());
result = result && getProcessorDescriptor() .equals(other.getProcessorDescriptor());
hash = (53 * hash) + getProcessorDescriptor().hashCode();
assertEquals(tezVertexId.getId(), vertexProto.getVertexIndex()); assertEquals(processorDescriptor.getClassName(), vertexProto.getProcessorDescriptor().getClassName()); assertEquals(processorDescriptor.getUserPayload().getPayload(), vertexProto.getProcessorDescriptor().getUserPayload().getUserPayload() .asReadOnlyByteBuffer()); assertEquals(2, vertexProto.getInputSpecsCount());