public void setMatrixOutput(String varName, MatrixBlock outputData, UpdateType flag) throws DMLRuntimeException { if (flag.isInPlace()) { // modify metadata to carry update status MatrixObject mo = getMatrixObject(varName); mo.setUpdateType(flag); } // default case setMatrixOutput(varName, outputData); }
@Override public void processInstruction(ExecutionContext ec) throws DMLRuntimeException { // obtain and pin input frame FrameBlock fin = ec.getFrameInput(input1.getName()); String spec = ec.getScalarInput(input2.getName(), input2.getValueType(), input2.isLiteral()) .getStringValue(); String[] colnames = fin.getColumnNames(); // execute block transform encode Encoder encoder = EncoderFactory.createEncoder(spec, colnames, fin.getNumColumns(), null); MatrixBlock data = encoder.encode( fin, new MatrixBlock(fin.getNumRows(), fin.getNumColumns(), false)); // build and apply FrameBlock meta = encoder.getMetaData(new FrameBlock(fin.getNumColumns(), ValueType.STRING)); meta.setColumnNames(colnames); // release input and outputs ec.releaseFrameInput(input1.getName()); ec.setMatrixOutput(getOutput(0).getName(), data); ec.setFrameOutput(getOutput(1).getName(), meta); }
@Override public void processInstruction(ExecutionContext ec) throws DMLRuntimeException { // get inputs MatrixBlock matBlock1 = ec.getMatrixInput(input1.getName()); MatrixBlock matBlock2 = ec.getMatrixInput(input2.getName()); // check input dimensions if (_type == AppendType.CBIND && matBlock1.getNumRows() != matBlock2.getNumRows()) { throw new DMLRuntimeException( "Append-cbind is not possible for input matrices " + input1.getName() + " and " + input2.getName() + " with different number of rows: " + matBlock1.getNumRows() + " vs " + matBlock2.getNumRows()); } else if (_type == AppendType.RBIND && matBlock1.getNumColumns() != matBlock2.getNumColumns()) { throw new DMLRuntimeException( "Append-rbind is not possible for input matrices " + input1.getName() + " and " + input2.getName() + " with different number of columns: " + matBlock1.getNumColumns() + " vs " + matBlock2.getNumColumns()); } // execute append operations (append both inputs to initially empty output) MatrixBlock ret = matBlock1.appendOperations(matBlock2, new MatrixBlock(), _type == AppendType.CBIND); // set output and release inputs ec.setMatrixOutput(output.getName(), ret); ec.releaseMatrixInput(input1.getName()); ec.releaseMatrixInput(input2.getName()); }
@Override public void processInstruction(ExecutionContext ec) throws DMLRuntimeException { CPOperand mat = (input1.getDataType() == DataType.MATRIX) ? input1 : input2; CPOperand scalar = (input1.getDataType() == DataType.MATRIX) ? input2 : input1; MatrixBlock inBlock = ec.getMatrixInput(mat.getName()); ScalarObject constant = (ScalarObject) ec.getScalarInput(scalar.getName(), scalar.getValueType(), scalar.isLiteral()); ScalarOperator sc_op = (ScalarOperator) _optr; sc_op.setConstant(constant.getDoubleValue()); MatrixBlock retBlock = (MatrixBlock) inBlock.scalarOperations(sc_op, new MatrixBlock()); ec.releaseMatrixInput(mat.getName()); // Ensure right dense/sparse output representation (guarded by released input memory) if (checkGuardedRepresentationChange(inBlock, retBlock)) { retBlock.examSparsity(); } ec.setMatrixOutput(output.getName(), retBlock); }