@Override
  public void serialize(MaxOrMinByState state, BlockBuilder out) {
    SliceOutput sliceOutput = new DynamicSliceOutput((int) state.getEstimatedSize());

    int keyLength = 0;
    if (state.getKey() != null && !state.getKey().isNull(0)) {
      keyLength = state.getKey().getLength(0);
    }
    sliceOutput.writeInt(keyLength);

    int valueLength = 0;
    if (state.getValue() != null && !state.getValue().isNull(0)) {
      valueLength = state.getValue().getLength(0);
    }
    sliceOutput.writeInt(valueLength);

    if (state.getKey() != null && !state.getKey().isNull(0)) {
      appendTo(keyType, sliceOutput, state.getKey());
    }
    if (state.getValue() != null && !state.getValue().isNull(0)) {
      appendTo(valueType, sliceOutput, state.getValue());
    }
    Slice slice = sliceOutput.slice();
    out.writeBytes(slice, 0, slice.length());
    out.closeEntry();
  }
示例#2
0
  @Override
  public void writeBlock(SliceOutput sliceOutput, Block block) {
    int positionCount = block.getPositionCount();
    sliceOutput.appendInt(positionCount);

    encodeNullsAsBits(sliceOutput, block);

    for (int position = 0; position < positionCount; position++) {
      if (!block.isNull(position)) {
        sliceOutput.writeLong(block.getLong(position, 0));
      }
    }
  }
 private static void appendTo(Type type, SliceOutput output, Block block) {
   if (type.getJavaType() == long.class) {
     output.appendLong(type.getLong(block, 0));
   } else if (type.getJavaType() == double.class) {
     output.appendDouble(type.getDouble(block, 0));
   } else if (type.getJavaType() == Slice.class) {
     output.appendBytes(type.getSlice(block, 0));
   } else if (type.getJavaType() == boolean.class) {
     output.appendByte(type.getBoolean(block, 0) ? 1 : 0);
   } else {
     throw new IllegalArgumentException("Unsupported type: " + type.getJavaType().getSimpleName());
   }
 }
 @Override
 public Block build() {
   if (currentEntrySize > 0) {
     throw new IllegalStateException("Current entry must be closed before the block can be built");
   }
   return new VariableWidthBlock(positions, sliceOutput.slice(), offsets, valueIsNull);
 }
 @Override
 public String toString() {
   StringBuilder sb = new StringBuilder("VariableWidthBlockBuilder{");
   sb.append("positionCount=").append(positions);
   sb.append(", size=").append(sliceOutput.size());
   sb.append('}');
   return sb.toString();
 }
  private void recordNewPosition() {
    if (positions == offsets.length) {
      offsets = Arrays.copyOf(offsets, offsets.length * 2);
    }

    offsets[positions] = sliceOutput.size();
    positions++;
  }
  @Override
  public BlockBuilder appendNull() {
    recordNewPosition();

    sliceOutput.writeByte(1);

    entryAdded(0);

    return this;
  }
  @Override
  public Block getRegion(int positionOffset, int length) {
    int positionCount = getPositionCount();
    if (positionOffset < 0 || length < 0 || positionOffset + length > positionCount) {
      throw new IndexOutOfBoundsException(
          "Invalid position " + positionOffset + " in block with " + positionCount + " positions");
    }

    return new VariableWidthBlock(
        positionOffset, length, sliceOutput.slice(), offsets, valueIsNull);
  }
  @Override
  public Block copyPositions(List<Integer> positions) {
    int finalLength = positions.stream().mapToInt(this::getLength).sum();
    SliceOutput newSlice = Slices.allocate(finalLength).getOutput();
    int[] newOffsets = new int[positions.size() + 1];
    boolean[] newValueIsNull = new boolean[positions.size()];

    for (int i = 0; i < positions.size(); i++) {
      int position = positions.get(i);
      if (isEntryNull(position)) {
        newValueIsNull[i] = true;
      } else {
        newSlice.appendBytes(
            sliceOutput
                .getUnderlyingSlice()
                .getBytes(getPositionOffset(position), getLength(position)));
      }
      newOffsets[i + 1] = newSlice.size();
    }
    return new VariableWidthBlock(positions.size(), newSlice.slice(), newOffsets, newValueIsNull);
  }
  @Override
  public BlockBuilder appendSlice(Slice value, int offset, int length) {
    recordNewPosition();

    sliceOutput.writeByte(0);

    int bytesWritten = type.writeSlice(sliceOutput, value, offset, length);

    entryAdded(bytesWritten);

    return this;
  }
  private void entryAdded(int bytesWritten, boolean isNull) {
    if (valueIsNull.length <= positions) {
      growCapacity();
    }

    valueIsNull[positions] = isNull;
    offsets[positions + 1] = sliceOutput.size();

    positions++;

    blockBuilderStatus.addBytes(SIZE_OF_BYTE + SIZE_OF_INT + bytesWritten);
  }
  @Override
  public Block copyRegion(int positionOffset, int length) {
    int positionCount = getPositionCount();
    if (positionOffset < 0 || length < 0 || positionOffset + length > positionCount) {
      throw new IndexOutOfBoundsException(
          "Invalid position " + positionOffset + " in block with " + positionCount + " positions");
    }

    int[] newOffsets = Arrays.copyOfRange(offsets, positionOffset, positionOffset + length + 1);
    boolean[] newValueIsNull =
        Arrays.copyOfRange(valueIsNull, positionOffset, positionOffset + length);
    return new VariableWidthBlock(length, sliceOutput.slice(), newOffsets, newValueIsNull);
  }
  @Override
  public void reset(BlockBuilderStatus blockBuilderStatus) {
    this.blockBuilderStatus = requireNonNull(blockBuilderStatus, "blockBuilderStatus is null");

    int newSize = calculateBlockResetSize(positions);
    valueIsNull = new boolean[newSize];
    offsets = new int[newSize + 1];
    sliceOutput = new DynamicSliceOutput(calculateBlockResetSize(sliceOutput.size()));

    positions = 0;
    currentEntrySize = 0;

    updateArraysDataSize();
  }
 @Override
 public void writeTo(
     List<Page> pages,
     Class<?> type,
     Type genericType,
     Annotation[] annotations,
     MediaType mediaType,
     MultivaluedMap<String, Object> httpHeaders,
     OutputStream output)
     throws IOException, WebApplicationException {
   try {
     SliceOutput sliceOutput = new OutputStreamSliceOutput(output);
     PagesSerde.writePages(blockEncodingSerde, sliceOutput, pages);
     // We use flush instead of close, because the underlying stream would be closed and that is
     // not allowed.
     sliceOutput.flush();
   } catch (RuntimeIOException e) {
     // EOF exception occurs when the client disconnects while writing data
     // This is not a "server" problem so we don't want to log this
     if (!(e.getCause() instanceof EOFException)) {
       throw e;
     }
   }
 }
 @Override
 public int getSizeInBytes() {
   return sliceOutput.size();
 }
 @Override
 public RandomAccessBlock build() {
   return new VariableWidthRandomAccessBlock(
       type, sliceOutput.slice(), Arrays.copyOf(offsets, positions));
 }
 @Override
 protected Slice getRawSlice() {
   return sliceOutput.getUnderlyingSlice();
 }
 private void entryAdded(int bytesWritten) {
   blockBuilderStatus.addBytes(SIZE_OF_BYTE + bytesWritten);
   if (sliceOutput.size() >= blockBuilderStatus.getMaxBlockSizeInBytes()) {
     blockBuilderStatus.setFull();
   }
 }
示例#19
0
    public boolean append(BlockCursor cursor) {
      // the extra BYTE here is for the null flag
      int writableBytes = sliceOutput.writableBytes() - SIZE_OF_BYTE;

      boolean isNull = cursor.isNull();

      if (type == Type.FIXED_INT_64) {
        if (writableBytes < SIZE_OF_LONG) {
          return false;
        }

        positionOffsets.add(sliceOutput.size());
        sliceOutput.writeByte(isNull ? 1 : 0);
        sliceOutput.appendLong(isNull ? 0 : cursor.getLong());
      } else if (type == Type.DOUBLE) {
        if (writableBytes < SIZE_OF_DOUBLE) {
          return false;
        }

        positionOffsets.add(sliceOutput.size());
        sliceOutput.writeByte(isNull ? 1 : 0);
        sliceOutput.appendDouble(isNull ? 0 : cursor.getDouble());
      } else if (type == Type.BOOLEAN) {
        if (writableBytes < SIZE_OF_BYTE) {
          return false;
        }

        positionOffsets.add(sliceOutput.size());
        sliceOutput.writeByte(isNull ? 1 : 0);
        sliceOutput.writeByte(!isNull && cursor.getBoolean() ? 1 : 0);
      } else if (type == Type.VARIABLE_BINARY) {
        int sliceLength =
            isNull ? 0 : getVariableBinaryLength(cursor.getRawSlice(), cursor.getRawOffset());
        if (writableBytes < SIZE_OF_INT + sliceLength) {
          return false;
        }

        int startingOffset = sliceOutput.size();
        positionOffsets.add(startingOffset);
        sliceOutput.writeByte(isNull ? 1 : 0);
        sliceOutput.appendInt(sliceLength + SIZE_OF_BYTE + SIZE_OF_INT);
        if (!isNull) {
          sliceOutput.writeBytes(
              cursor.getRawSlice(),
              cursor.getRawOffset() + SIZE_OF_BYTE + SIZE_OF_INT,
              sliceLength);
        }
      } else {
        throw new IllegalArgumentException("Unsupported type " + type);
      }
      return true;
    }
示例#20
0
  public static Expression toExpression(Object object, Type type) {
    requireNonNull(type, "type is null");

    if (object instanceof Expression) {
      return (Expression) object;
    }

    if (object == null) {
      if (type.equals(UNKNOWN)) {
        return new NullLiteral();
      }
      return new Cast(new NullLiteral(), type.getTypeSignature().toString(), false, true);
    }

    checkArgument(
        Primitives.wrap(type.getJavaType()).isInstance(object),
        "object.getClass (%s) and type.getJavaType (%s) do not agree",
        object.getClass(),
        type.getJavaType());

    if (type.equals(BIGINT)) {
      return new LongLiteral(object.toString());
    }

    if (type.equals(DOUBLE)) {
      Double value = (Double) object;
      // WARNING: the ORC predicate code depends on NaN and infinity not appearing in a tuple
      // domain, so
      // if you remove this, you will need to update the TupleDomainOrcPredicate
      if (value.isNaN()) {
        return new FunctionCall(new QualifiedName("nan"), ImmutableList.<Expression>of());
      } else if (value.equals(Double.NEGATIVE_INFINITY)) {
        return ArithmeticUnaryExpression.negative(
            new FunctionCall(new QualifiedName("infinity"), ImmutableList.<Expression>of()));
      } else if (value.equals(Double.POSITIVE_INFINITY)) {
        return new FunctionCall(new QualifiedName("infinity"), ImmutableList.<Expression>of());
      } else {
        return new DoubleLiteral(object.toString());
      }
    }

    if (type instanceof VarcharType) {
      if (object instanceof String) {
        object = Slices.utf8Slice((String) object);
      }

      if (object instanceof Slice) {
        Slice value = (Slice) object;
        int length = SliceUtf8.countCodePoints(value);

        if (length == ((VarcharType) type).getLength()) {
          return new StringLiteral(value.toStringUtf8());
        }

        return new Cast(
            new StringLiteral(value.toStringUtf8()), type.getDisplayName(), false, true);
      }

      throw new IllegalArgumentException(
          "object must be instance of Slice or String when type is VARCHAR");
    }

    if (type.equals(BOOLEAN)) {
      return new BooleanLiteral(object.toString());
    }

    if (object instanceof Block) {
      SliceOutput output = new DynamicSliceOutput(((Block) object).getSizeInBytes());
      BlockSerdeUtil.writeBlock(output, (Block) object);
      object = output.slice();
      // This if condition will evaluate to true: object instanceof Slice && !type.equals(VARCHAR)
    }

    if (object instanceof Slice) {
      // HACK: we need to serialize VARBINARY in a format that can be embedded in an expression to
      // be
      // able to encode it in the plan that gets sent to workers.
      // We do this by transforming the in-memory varbinary into a call to
      // from_base64(<base64-encoded value>)
      FunctionCall fromBase64 =
          new FunctionCall(
              new QualifiedName("from_base64"),
              ImmutableList.of(
                  new StringLiteral(VarbinaryFunctions.toBase64((Slice) object).toStringUtf8())));
      Signature signature = FunctionRegistry.getMagicLiteralFunctionSignature(type);
      return new FunctionCall(new QualifiedName(signature.getName()), ImmutableList.of(fromBase64));
    }

    Signature signature = FunctionRegistry.getMagicLiteralFunctionSignature(type);
    Expression rawLiteral = toExpression(object, FunctionRegistry.typeForMagicLiteral(type));

    return new FunctionCall(new QualifiedName(signature.getName()), ImmutableList.of(rawLiteral));
  }
示例#21
0
    public UncompressedBlock build() {
      checkState(!positionOffsets.isEmpty(), "Cannot build an empty block");

      return new UncompressedBlock(
          positionOffsets.size(), new TupleInfo(type), sliceOutput.slice());
    }
 @Override
 public int getSizeInBytes() {
   long arraysSizeInBytes = (Integer.BYTES + Byte.BYTES) * (long) positions;
   return intSaturatedCast(sliceOutput.size() + arraysSizeInBytes);
 }
 @Override
 public int getRetainedSizeInBytes() {
   return intSaturatedCast(
       INSTANCE_SIZE + sliceOutput.getRetainedSize() + arraysRetainedSizeInBytes);
 }
示例#24
0
 @Override
 public void appendTo(Slice slice, int offset, SliceOutput sliceOutput) {
   // copy full value including length
   int length = getLength(slice, offset);
   sliceOutput.writeBytes(slice, offset, length);
 }
示例#25
0
 @Override
 public int writeSlice(SliceOutput sliceOutput, Slice value, int offset, int length) {
   sliceOutput.writeInt(length);
   sliceOutput.writeBytes(value, offset, length);
   return length + SIZE_OF_INT;
 }
 @Override
 public BlockBuilder writeByte(int value) {
   sliceOutput.writeByte(value);
   currentEntrySize += SIZE_OF_BYTE;
   return this;
 }
 @Override
 public BlockBuilder writeInt(int value) {
   sliceOutput.writeInt(value);
   currentEntrySize += SIZE_OF_INT;
   return this;
 }
 @Override
 public BlockBuilder writeLong(long value) {
   sliceOutput.writeLong(value);
   currentEntrySize += SIZE_OF_LONG;
   return this;
 }
 private static Slice blockToSlice(Block block) {
   // This function is strictly for testing use only
   SliceOutput sliceOutput = new DynamicSliceOutput(1000);
   BlockSerdeUtil.writeBlock(sliceOutput, block.copyRegion(0, block.getPositionCount()));
   return sliceOutput.slice();
 }
 @Override
 public BlockBuilder writeBytes(Slice source, int sourceIndex, int length) {
   sliceOutput.writeBytes(source, sourceIndex, length);
   currentEntrySize += length;
   return this;
 }