Пример #1
0
  @Override
  public void addToBucket(Object arg, Bucket<Integer> bucket, Type type) {
    assert type.equals(Type.getPrimitive(Type.TypeName.INT));

    if (null != arg) {
      Integer state = getState(bucket);
      int val = 0;
      if (null != state) {
        val = state.intValue();
      }

      val++; // Non-null item in bucket increments state.
      bucket.setState(Integer.valueOf(val));
    }
  }
Пример #2
0
  @Override
  public Type getType(SymbolTable symTab) {
    // Get the types of the lhs and rhs, and then verify that one promotes to the other.
    mLhsType = mLeftExpr.getType(symTab);
    mRhsType = mRightExpr.getType(symTab);
    Type sharedType = null;
    if (mLhsType.promotesTo(mRhsType)) {
      sharedType = mRhsType;
    } else if (mRhsType.promotesTo(mLhsType)) {
      sharedType = mLhsType;
    }

    // Save this for later.
    mArgType = sharedType;

    switch (mOp) {
      case Times:
      case Div:
      case Mod:
      case Add:
      case Subtract:
        // Numeric operators return their input type.
        return sharedType;
      case Greater:
      case GreaterEq:
      case Less:
      case LessEq:
      case Eq:
      case NotEq:
      case And:
      case Or:
        return Type.getPrimitive(Type.TypeName.BOOLEAN);
      default:
        // Couldn't reconcile any type.
        LOG.error("Unknown operator " + mOp + " in getType()");
        return null;
    }
  }
Пример #3
0
  @Override
  public Object eval(EventWrapper e) throws IOException {
    Object lhs = mLeftExpr.eval(e);
    Object rhs = mRightExpr.eval(e);

    if (null == lhs || null == rhs) {
      // NULL op X always returns null.
      return null;
    }

    if (!mLhsType.equals(mArgType)) {
      lhs = coerce(lhs, mLhsType, mArgType);
    }

    if (!mRhsType.equals(mArgType)) {
      rhs = coerce(rhs, mRhsType, mArgType);
    }

    switch (mOp) {
      case Times:
        switch (mArgType.getPrimitiveTypeName()) {
          case INT:
            return Integer.valueOf(((Number) lhs).intValue() * ((Number) rhs).intValue());
          case BIGINT:
            return Long.valueOf(((Number) lhs).longValue() * ((Number) rhs).longValue());
          case FLOAT:
            return Float.valueOf(((Number) lhs).floatValue() * ((Number) rhs).floatValue());
          case DOUBLE:
            return Double.valueOf(((Number) lhs).doubleValue() * ((Number) rhs).doubleValue());
          case PRECISE:
            return ((BigDecimal) lhs).multiply((BigDecimal) rhs);
          default:
            LOG.error("Cannot multiply with non-number type " + mArgType);
            return null;
        }
      case Div:
        switch (mArgType.getPrimitiveTypeName()) {
          case INT:
            return Integer.valueOf(((Number) lhs).intValue() / ((Number) rhs).intValue());
          case BIGINT:
            return Long.valueOf(((Number) lhs).longValue() / ((Number) rhs).longValue());
          case FLOAT:
            return Float.valueOf(((Number) lhs).floatValue() / ((Number) rhs).floatValue());
          case DOUBLE:
            return Double.valueOf(((Number) lhs).doubleValue() / ((Number) rhs).doubleValue());
          case PRECISE:
            return ((BigDecimal) lhs).divide((BigDecimal) rhs);
          default:
            LOG.error("Cannot divide with non-number type " + mArgType);
            return null;
        }
      case Mod:
        switch (mArgType.getPrimitiveTypeName()) {
          case INT:
            return Integer.valueOf(((Number) lhs).intValue() % ((Number) rhs).intValue());
          case BIGINT:
            return Long.valueOf(((Number) lhs).longValue() % ((Number) rhs).longValue());
          case FLOAT:
            return Float.valueOf(((Number) lhs).floatValue() % ((Number) rhs).floatValue());
          case DOUBLE:
            return Double.valueOf(((Number) lhs).doubleValue() % ((Number) rhs).doubleValue());
          case PRECISE:
            return ((BigDecimal) lhs).remainder((BigDecimal) rhs);
          default:
            LOG.error("Cannot divide with non-number type " + mArgType);
            return null;
        }
      case Add:
        switch (mArgType.getPrimitiveTypeName()) {
          case INT:
            return Integer.valueOf(((Number) lhs).intValue() + ((Number) rhs).intValue());
          case BIGINT:
            return Long.valueOf(((Number) lhs).longValue() + ((Number) rhs).longValue());
          case FLOAT:
            return Float.valueOf(((Number) lhs).floatValue() + ((Number) rhs).floatValue());
          case DOUBLE:
            return Double.valueOf(((Number) lhs).doubleValue() + ((Number) rhs).doubleValue());
          case PRECISE:
            return ((BigDecimal) lhs).add((BigDecimal) rhs);
          case STRING:
            // String concatenation.
            StringBuilder sb = new StringBuilder();
            sb.append(lhs);
            sb.append(rhs);
            return sb.toString();
          default:
            LOG.error("Cannot divide with non-number type " + mArgType);
            return null;
        }
      case Subtract:
        switch (mArgType.getPrimitiveTypeName()) {
          case INT:
            return Integer.valueOf(((Number) lhs).intValue() - ((Number) rhs).intValue());
          case BIGINT:
            return Long.valueOf(((Number) lhs).longValue() - ((Number) rhs).longValue());
          case FLOAT:
            return Float.valueOf(((Number) lhs).floatValue() - ((Number) rhs).floatValue());
          case DOUBLE:
            return Double.valueOf(((Number) lhs).doubleValue() - ((Number) rhs).doubleValue());
          case PRECISE:
            return ((BigDecimal) lhs).subtract((BigDecimal) rhs);
          default:
            LOG.error("Cannot divide with non-number type " + mArgType);
            return null;
        }
      case Greater:
        return Boolean.valueOf(((Comparable) lhs).compareTo(rhs) > 0);
      case GreaterEq:
        return Boolean.valueOf(((Comparable) lhs).compareTo(rhs) >= 0);
      case Less:
        return Boolean.valueOf(((Comparable) lhs).compareTo(rhs) < 0);
      case LessEq:
        return Boolean.valueOf(((Comparable) lhs).compareTo(rhs) <= 0);
      case Eq:
        return Boolean.valueOf(lhs.equals(rhs));
      case NotEq:
        return Boolean.valueOf(!lhs.equals(rhs));
      case And:
        return Boolean.valueOf(((Boolean) lhs).booleanValue() && ((Boolean) rhs).booleanValue());
      case Or:
        return Boolean.valueOf(((Boolean) lhs).booleanValue() || ((Boolean) rhs).booleanValue());
      default:
        // Couldn't evaluate this operator.
        throw new RuntimeException("Unknown operator " + mOp + " in eval");
    }
  }
Пример #4
0
 @Override
 public Type getReturnType() {
   return Type.getPrimitive(Type.TypeName.INT);
 }
Пример #5
0
 public count() {
   // Argument may have any input type.
   mArgType = new UniversalType("'a");
   mArgType.addConstraint(Type.getNullable(Type.TypeName.TYPECLASS_ANY));
 }