Java Code Examples for org.apache.phoenix.query.QueryConstants#SEPARATOR_BYTE
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org.apache.phoenix.query.QueryConstants#SEPARATOR_BYTE .
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Example 1
Source File: StatisticsUtil.java From phoenix with Apache License 2.0 | 6 votes |
public static byte[] getRowKey(byte[] table, ImmutableBytesWritable fam, ImmutableBytesWritable guidePostStartKey) { // always starts with the source table int guidePostLength = guidePostStartKey.getLength(); boolean hasGuidePost = guidePostLength > 0; byte[] rowKey = new byte[table.length + fam.getLength() + guidePostLength + (hasGuidePost ? 2 : 1)]; int offset = 0; System.arraycopy(table, 0, rowKey, offset, table.length); offset += table.length; rowKey[offset++] = QueryConstants.SEPARATOR_BYTE; // assumes stats table columns not DESC System.arraycopy(fam.get(), fam.getOffset(), rowKey, offset, fam.getLength()); if (hasGuidePost) { offset += fam.getLength(); rowKey[offset++] = QueryConstants.SEPARATOR_BYTE; // assumes stats table columns not DESC System.arraycopy(guidePostStartKey.get(), 0, rowKey, offset, guidePostLength); } return rowKey; }
Example 2
Source File: ScanUtil.java From phoenix with Apache License 2.0 | 6 votes |
private static byte[] nextKey(byte[] key, RowKeySchema schema, ImmutableBytesWritable ptr) { int pos = 0; int maxOffset = schema.iterator(key, ptr); while (schema.next(ptr, pos, maxOffset) != null) { pos++; } if (!schema.getField(pos-1).getDataType().isFixedWidth()) { byte[] newLowerRange = new byte[key.length + 1]; System.arraycopy(key, 0, newLowerRange, 0, key.length); newLowerRange[key.length] = QueryConstants.SEPARATOR_BYTE; key = newLowerRange; } else { key = Arrays.copyOf(key, key.length); } ByteUtil.nextKey(key, key.length); return key; }
Example 3
Source File: SchemaUtil.java From phoenix with Apache License 2.0 | 5 votes |
public static int getVarCharLength(byte[] buf, int keyOffset, int maxLength, int skipCount) { int length = 0; for (int i=0; i<skipCount; i++) { while (length < maxLength && buf[keyOffset+length] != QueryConstants.SEPARATOR_BYTE) { length++; } if (i != skipCount-1) { // skip over the separator if it's not the last one. length++; } } return length; }
Example 4
Source File: StatisticsUtil.java From phoenix with Apache License 2.0 | 5 votes |
private static byte[] getKey(byte[] table, ImmutableBytesWritable fam, boolean terminateWithSeparator) { // always starts with the source table and column family byte[] rowKey = new byte[table.length + fam.getLength() + 1 + (terminateWithSeparator ? 1 : 0)]; int offset = 0; System.arraycopy(table, 0, rowKey, offset, table.length); offset += table.length; rowKey[offset++] = QueryConstants.SEPARATOR_BYTE; // assumes stats table columns not DESC System.arraycopy(fam.get(), fam.getOffset(), rowKey, offset, fam.getLength()); offset += fam.getLength(); if (terminateWithSeparator) { rowKey[offset] = QueryConstants.SEPARATOR_BYTE; } return rowKey; }
Example 5
Source File: PArrayDataType.java From phoenix with Apache License 2.0 | 5 votes |
private static void writeNewOffsets(byte[] arrayBytes, byte[] newArray, boolean useShortNew, boolean useShortPrevious, int newOffsetArrayPosition, int arrayLength, int offsetArrayPosition, int offset, int offsetShift, int length) { int currentPosition = newOffsetArrayPosition; int offsetArrayElementSize = useShortNew ? Bytes.SIZEOF_SHORT : Bytes.SIZEOF_INT; if (useShortNew) { Bytes.putShort(newArray, currentPosition, (short)(0 - Short.MAX_VALUE)); } else { Bytes.putInt(newArray, currentPosition, 0); } currentPosition += offsetArrayElementSize; boolean nullsAtBeginning = true; byte serializationVersion = arrayBytes[offset + length - Bytes.SIZEOF_BYTE]; for (int arrayIndex = 0; arrayIndex < arrayLength - 1; arrayIndex++) { int oldOffset = getOffset(arrayBytes, arrayIndex, useShortPrevious, offsetArrayPosition + offset, serializationVersion); if (arrayBytes[offset + oldOffset] == QueryConstants.SEPARATOR_BYTE && nullsAtBeginning) { if (useShortNew) { Bytes.putShort(newArray, currentPosition, (short)(oldOffset - Short.MAX_VALUE)); } else { Bytes.putInt(newArray, currentPosition, oldOffset); } } else { if (useShortNew) { Bytes.putShort(newArray, currentPosition, (short)(oldOffset + offsetShift - Short.MAX_VALUE)); } else { Bytes.putInt(newArray, currentPosition, oldOffset + offsetShift); } nullsAtBeginning = false; } currentPosition += offsetArrayElementSize; } Bytes.putInt(newArray, currentPosition, newOffsetArrayPosition); currentPosition += Bytes.SIZEOF_INT; Bytes.putInt(newArray, currentPosition, useShortNew ? arrayLength : -arrayLength); currentPosition += Bytes.SIZEOF_INT; Bytes.putByte(newArray, currentPosition, arrayBytes[offset + length - 1]); }
Example 6
Source File: SchemaUtil.java From phoenix with Apache License 2.0 | 5 votes |
public static int getVarCharLength(byte[] buf, int keyOffset, int maxLength, int skipCount) { int length = 0; for (int i=0; i<skipCount; i++) { while (length < maxLength && buf[keyOffset+length] != QueryConstants.SEPARATOR_BYTE) { length++; } if (i != skipCount-1) { // skip over the separator if it's not the last one. length++; } } return length; }
Example 7
Source File: PDataTypeForArraysTest.java From phoenix with Apache License 2.0 | 5 votes |
@Test public void testIsRowKeyOrderOptimized3() { Object[] objects = new Object[]{"a", "b", "c"}; PhoenixArray arr = new PhoenixArray(PVarchar.INSTANCE, objects); byte[] bytes = PVarcharArray.INSTANCE.toBytes(arr, SortOrder.DESC); for (int i = 0; i < bytes.length; i++) { if (bytes[i] == QueryConstants.DESC_SEPARATOR_BYTE) { bytes[i] = QueryConstants.SEPARATOR_BYTE; } } assertFalse(PArrayDataType.isRowKeyOrderOptimized(PVarcharArray.INSTANCE, SortOrder.DESC, bytes, 0, bytes.length)); }
Example 8
Source File: SkipScanFilter.java From phoenix with Apache License 2.0 | 5 votes |
private int setStartKey(ImmutableBytesWritable ptr, int offset, int i) { int length = ptr.getOffset() - offset; startKey = copyKey(startKey, length + this.maxKeyLength, ptr.get(), offset, length); startKeyLength = length; // Add separator byte if we're at the end of the buffer, since trailing separator bytes are stripped if (ptr.getOffset() + ptr.getLength() == offset + length && i-1 > 0 && !schema.getField(i-1).getDataType().isFixedWidth()) { startKey[startKeyLength++] = QueryConstants.SEPARATOR_BYTE; } startKeyLength += setKey(Bound.LOWER, startKey, startKeyLength, i); return length; }
Example 9
Source File: StatisticsUtil.java From phoenix with Apache License 2.0 | 5 votes |
public static byte[] getRowKey(byte[] table, ImmutableBytesPtr fam, byte[] region) { // always starts with the source table byte[] rowKey = new byte[table.length + fam.getLength() + region.length + 2]; int offset = 0; System.arraycopy(table, 0, rowKey, offset, table.length); offset += table.length; rowKey[offset++] = QueryConstants.SEPARATOR_BYTE; System.arraycopy(fam.get(), fam.getOffset(), rowKey, offset, fam.getLength()); offset += fam.getLength(); rowKey[offset++] = QueryConstants.SEPARATOR_BYTE; System.arraycopy(region, 0, rowKey, offset, region.length); return rowKey; }
Example 10
Source File: RowKeySchema.java From phoenix with Apache License 2.0 | 4 votes |
@edu.umd.cs.findbugs.annotations.SuppressWarnings( value="NP_BOOLEAN_RETURN_NULL", justification="Designed to return null.") public Boolean previous(ImmutableBytesWritable ptr, int position, int minOffset) { if (position < 0) { return null; } Field field = this.getField(position); if (field.getDataType().isFixedWidth()) { ptr.set(ptr.get(), ptr.getOffset()-field.getByteSize(), field.getByteSize()); return true; } // If ptr has length of zero, it is assumed that we're at the end of the row key int offsetAdjustment = position + 1 == this.getFieldCount() || ptr.getLength() == 0 ? 0 : 1; if (position == 0) { ptr.set(ptr.get(), minOffset, ptr.getOffset() - minOffset - offsetAdjustment); return true; } field = this.getField(position-1); // Field before the one we want to position at is variable length // In this case, we can search backwards for our separator byte // to determine the length if (!field.getDataType().isFixedWidth()) { byte[] buf = ptr.get(); int offset = ptr.getOffset()-1-offsetAdjustment; // Separator always zero byte if zero length if (offset > minOffset && buf[offset] != QueryConstants.SEPARATOR_BYTE) { byte sepByte = SchemaUtil.getSeparatorByte(rowKeyOrderOptimizable, false, field); do { offset--; } while (offset > minOffset && buf[offset] != sepByte); } if (offset == minOffset) { // shouldn't happen ptr.set(buf, minOffset, ptr.getOffset()-minOffset-1); } else { ptr.set(buf,offset+1,ptr.getOffset()-1-offsetAdjustment-offset); // Don't include null terminator in length } return true; } int i,fixedOffset = field.getByteSize(); for (i = position-2; i >= 0 && this.getField(i).getDataType().isFixedWidth(); i--) { fixedOffset += this.getField(i).getByteSize(); } // All of the previous fields are fixed width, so we can calculate the offset // based on the total fixed offset if (i < 0) { int length = ptr.getOffset() - fixedOffset - minOffset - offsetAdjustment; ptr.set(ptr.get(),minOffset+fixedOffset, length); return true; } // Otherwise we're stuck with starting from the minOffset and working all the way forward, // because we can't infer the length of the previous position. return iterator(ptr.get(), minOffset, ptr.getOffset() - minOffset - offsetAdjustment, ptr, position+1); }
Example 11
Source File: SystemCatalogWALEntryFilter.java From phoenix with Apache License 2.0 | 4 votes |
private boolean isTenantRowCell(Cell cell) { ImmutableBytesWritable key = new ImmutableBytesWritable(cell.getRowArray(), cell.getRowOffset(), cell.getRowLength()); //rows in system.catalog that aren't tenant-owned will have a leading separator byte return key.get()[key.getOffset()] != QueryConstants.SEPARATOR_BYTE; }
Example 12
Source File: WhereOptimizer.java From phoenix with Apache License 2.0 | 4 votes |
@Override public KeySlots visitLeave(LikeExpression node, List<KeySlots> childParts) { // TODO: optimize ILIKE by creating two ranges for the literal prefix: one with lower case, one with upper case if (childParts.isEmpty()) { return null; } // for SUBSTR(<column>,1,3) LIKE 'foo%' KeySlots childSlots = childParts.get(0); KeySlot childSlot = childSlots.getSlots().get(0); final String startsWith = node.getLiteralPrefix(); SortOrder sortOrder = node.getChildren().get(0).getSortOrder(); byte[] key = PVarchar.INSTANCE.toBytes(startsWith, sortOrder); // If the expression is an equality expression against a fixed length column // and the key length doesn't match the column length, the expression can // never be true. // An zero length byte literal is null which can never be compared against as true Expression firstChild = node.getChildren().get(0); Integer childNodeFixedLength = firstChild.getDataType().isFixedWidth() ? firstChild.getMaxLength() : null; if (childNodeFixedLength != null && key.length > childNodeFixedLength) { return EMPTY_KEY_SLOTS; } // TODO: is there a case where we'd need to go through the childPart to calculate the key range? PColumn column = childSlot.getKeyPart().getColumn(); PDataType type = column.getDataType(); byte[] lowerRange = key; byte[] upperRange = ByteUtil.nextKey(key); Integer columnFixedLength = column.getMaxLength(); if (type.isFixedWidth()) { if (columnFixedLength != null) { // Sanity check - should always be non null // Always use minimum byte to fill as otherwise our key is bigger // that it should be when the sort order is descending. lowerRange = type.pad(lowerRange, columnFixedLength, SortOrder.ASC); upperRange = type.pad(upperRange, columnFixedLength, SortOrder.ASC); } } else if (column.getSortOrder() == SortOrder.DESC && table.rowKeyOrderOptimizable()) { // Append a zero byte if descending since a \xFF byte will be appended to the lowerRange // causing rows to be skipped that should be included. For example, with rows 'ab', 'a', // a lowerRange of 'a\xFF' would skip 'ab', while 'a\x00\xFF' would not. lowerRange = Arrays.copyOf(lowerRange, lowerRange.length+1); lowerRange[lowerRange.length-1] = QueryConstants.SEPARATOR_BYTE; } KeyRange range = type.getKeyRange(lowerRange, true, upperRange, false); if (column.getSortOrder() == SortOrder.DESC) { range = range.invert(); } // Only extract LIKE expression if pattern ends with a wildcard and everything else was extracted return newKeyParts(childSlot, node.endsWithOnlyWildcard() ? node : null, range); }
Example 13
Source File: PrefixFunction.java From phoenix with Apache License 2.0 | 4 votes |
@Override public KeyRange getKeyRange(CompareOp op, Expression rhs) { byte[] lowerRange = KeyRange.UNBOUND; byte[] upperRange = KeyRange.UNBOUND; boolean lowerInclusive = true; PDataType type = getColumn().getDataType(); switch (op) { case EQUAL: lowerRange = evaluateExpression(rhs); upperRange = ByteUtil.nextKey(lowerRange); break; case GREATER: lowerRange = ByteUtil.nextKey(evaluateExpression(rhs)); break; case LESS_OR_EQUAL: upperRange = ByteUtil.nextKey(evaluateExpression(rhs)); lowerInclusive = false; break; default: return childPart.getKeyRange(op, rhs); } PColumn column = getColumn(); Integer length = column.getMaxLength(); if (type.isFixedWidth()) { if (length != null) { // Sanity check - shouldn't be necessary // Don't pad based on current sort order, but instead use our // minimum byte as otherwise we'll end up skipping rows in // the case of descending, since rows with more padding appear // *after* rows with no padding. if (lowerRange != KeyRange.UNBOUND) { lowerRange = type.pad(lowerRange, length, SortOrder.ASC); } if (upperRange != KeyRange.UNBOUND) { upperRange = type.pad(upperRange, length, SortOrder.ASC); } } } else if (column.getSortOrder() == SortOrder.DESC && getTable().rowKeyOrderOptimizable()) { // Append a zero byte if descending since a \xFF byte will be appended to the lowerRange // causing rows to be skipped that should be included. For example, with rows 'ab', 'a', // a lowerRange of 'a\xFF' would skip 'ab', while 'a\x00\xFF' would not. if (lowerRange != KeyRange.UNBOUND) { lowerRange = Arrays.copyOf(lowerRange, lowerRange.length+1); lowerRange[lowerRange.length-1] = QueryConstants.SEPARATOR_BYTE; } } KeyRange range = KeyRange.getKeyRange(lowerRange, lowerInclusive, upperRange, false); if (column.getSortOrder() == SortOrder.DESC) { range = range.invert(); } return range; }
Example 14
Source File: PArrayDataType.java From phoenix with Apache License 2.0 | 4 votes |
public static void positionAtArrayElement(ImmutableBytesWritable ptr, int arrayIndex, PDataType baseDataType, Integer byteSize, int offset, int length, int noOfElements, boolean first) { byte[] bytes = ptr.get(); if (!baseDataType.isFixedWidth()) { int indexOffset = Bytes.toInt(bytes, (offset + length - (Bytes.SIZEOF_BYTE + 2 * Bytes.SIZEOF_INT))) + offset; boolean useShort = true; if (first) { int count = Bytes.toInt(bytes, (ptr.getOffset() + ptr.getLength() - (Bytes.SIZEOF_BYTE + Bytes.SIZEOF_INT)), Bytes.SIZEOF_INT); if (count < 0) { count = -count; useShort = false; } } if (arrayIndex >= noOfElements) { return; } else { // Skip those many offsets as given in the arrayIndex // If suppose there are 5 elements in the array and the arrayIndex = 3 // This means we need to read the 4th element of the array // So inorder to know the length of the 4th element we will read the offset of 4th element and the // offset of 5th element. // Subtracting the offset of 5th element and 4th element will give the length of 4th element // So we could just skip reading the other elements. int currOffset = getOffset(bytes, arrayIndex, useShort, indexOffset); int elementLength = 0; if (arrayIndex == (noOfElements - 1)) { elementLength = bytes[currOffset + offset] == QueryConstants.SEPARATOR_BYTE ? 0 : indexOffset - (currOffset + offset) - 3; } else { elementLength = bytes[currOffset + offset] == QueryConstants.SEPARATOR_BYTE ? 0 : getOffset(bytes, arrayIndex + 1, useShort, indexOffset) - currOffset - 1; } ptr.set(bytes, currOffset + offset, elementLength); } } else { int elemByteSize = (byteSize == null ? baseDataType.getByteSize() : byteSize); offset += arrayIndex * elemByteSize; if (offset >= offset + length) { return; } else { ptr.set(bytes, offset, elemByteSize); } } }
Example 15
Source File: RowKeyValueAccessor.java From phoenix with Apache License 2.0 | 4 votes |
private static boolean isSeparatorByte(byte b) { return b == QueryConstants.SEPARATOR_BYTE || b == QueryConstants.DESC_SEPARATOR_BYTE; }
Example 16
Source File: PArrayDataType.java From phoenix with Apache License 2.0 | 4 votes |
public static void positionAtArrayElement(ImmutableBytesWritable ptr, int arrayIndex, PDataType baseDataType, Integer byteSize) { byte[] bytes = ptr.get(); int initPos = ptr.getOffset(); if (!baseDataType.isFixedWidth()) { int noOfElements = Bytes.toInt(bytes, (ptr.getOffset() + ptr.getLength() - (Bytes.SIZEOF_BYTE + Bytes.SIZEOF_INT)), Bytes.SIZEOF_INT); boolean useShort = true; if (noOfElements < 0) { noOfElements = -noOfElements; useShort = false; } if (arrayIndex >= noOfElements) { ptr.set(ByteUtil.EMPTY_BYTE_ARRAY); return; } int indexOffset = Bytes.toInt(bytes, (ptr.getOffset() + ptr.getLength() - (Bytes.SIZEOF_BYTE + 2 * Bytes.SIZEOF_INT))) + ptr.getOffset(); if(arrayIndex >= noOfElements) { ptr.set(ByteUtil.EMPTY_BYTE_ARRAY); } else { // Skip those many offsets as given in the arrayIndex // If suppose there are 5 elements in the array and the arrayIndex = 3 // This means we need to read the 4th element of the array // So inorder to know the length of the 4th element we will read the offset of 4th element and the // offset of 5th element. // Subtracting the offset of 5th element and 4th element will give the length of 4th element // So we could just skip reading the other elements. int currOffset = getOffset(bytes, arrayIndex, useShort, indexOffset); int elementLength = 0; if (arrayIndex == (noOfElements - 1)) { elementLength = bytes[currOffset + initPos] == QueryConstants.SEPARATOR_BYTE ? 0 : indexOffset - (currOffset + initPos) - 3; } else { elementLength = bytes[currOffset + initPos] == QueryConstants.SEPARATOR_BYTE ? 0 : getOffset(bytes, arrayIndex + 1, useShort, indexOffset) - currOffset - 1; } ptr.set(bytes, currOffset + initPos, elementLength); } } else { int elemByteSize = (byteSize == null ? baseDataType.getByteSize() : byteSize); int offset = arrayIndex * elemByteSize; if (offset >= ptr.getLength()) { ptr.set(ByteUtil.EMPTY_BYTE_ARRAY); } else { ptr.set(bytes, ptr.getOffset() + offset, elemByteSize); } } }
Example 17
Source File: PArrayDataTypeDecoder.java From phoenix with Apache License 2.0 | 4 votes |
private static boolean isSeparatorByte(byte[] bytes, int initPos, int currOffset) { return bytes[currOffset + initPos] == QueryConstants.SEPARATOR_BYTE || bytes[currOffset + initPos] == QueryConstants.DESC_SEPARATOR_BYTE; }
Example 18
Source File: ScanUtil.java From phoenix with Apache License 2.0 | 4 votes |
public static int setKey(RowKeySchema schema, List<List<KeyRange>> slots, int[] slotSpan, int[] position, Bound bound, byte[] key, int byteOffset, int slotStartIndex, int slotEndIndex, int schemaStartIndex) { int offset = byteOffset; boolean lastInclusiveUpperSingleKey = false; boolean anyInclusiveUpperRangeKey = false; // The index used for slots should be incremented by 1, // but the index for the field it represents in the schema // should be incremented by 1 + value in the current slotSpan index // slotSpan stores the number of columns beyond one that the range spans int i = slotStartIndex, fieldIndex = ScanUtil.getRowKeyPosition(slotSpan, slotStartIndex); for (i = slotStartIndex; i < slotEndIndex; i++) { // Build up the key by appending the bound of each key range // from the current position of each slot. KeyRange range = slots.get(i).get(position[i]); // Use last slot in a multi-span column to determine if fixed width boolean isFixedWidth = schema.getField(fieldIndex + slotSpan[i]).getDataType().isFixedWidth(); fieldIndex += slotSpan[i] + 1; /* * If the current slot is unbound then stop if: * 1) setting the upper bound. There's no value in * continuing because nothing will be filtered. * 2) setting the lower bound when the type is fixed length * for the same reason. However, if the type is variable width * continue building the key because null values will be filtered * since our separator byte will be appended and incremented. */ if ( range.isUnbound(bound) && ( bound == Bound.UPPER || isFixedWidth) ){ break; } byte[] bytes = range.getRange(bound); System.arraycopy(bytes, 0, key, offset, bytes.length); offset += bytes.length; /* * We must add a terminator to a variable length key even for the last PK column if * the lower key is non inclusive or the upper key is inclusive. Otherwise, we'd be * incrementing the key value itself, and thus bumping it up too much. */ boolean inclusiveUpper = range.isInclusive(bound) && bound == Bound.UPPER; boolean exclusiveLower = !range.isInclusive(bound) && bound == Bound.LOWER; // If we are setting the upper bound of using inclusive single key, we remember // to increment the key if we exit the loop after this iteration. // // We remember to increment the last slot if we are setting the upper bound with an // inclusive range key. // // We cannot combine the two flags together in case for single-inclusive key followed // by the range-exclusive key. In that case, we do not need to increment the end at the // end. But if we combine the two flag, the single inclusive key in the middle of the // key slots would cause the flag to become true. lastInclusiveUpperSingleKey = range.isSingleKey() && inclusiveUpper; anyInclusiveUpperRangeKey |= !range.isSingleKey() && inclusiveUpper; if (!isFixedWidth && ( fieldIndex < schema.getMaxFields() || inclusiveUpper || exclusiveLower)) { key[offset++] = QueryConstants.SEPARATOR_BYTE; // Set lastInclusiveUpperSingleKey back to false if this is the last pk column // as we don't want to increment the null byte in this case lastInclusiveUpperSingleKey &= i < schema.getMaxFields()-1; } // If we are setting the lower bound with an exclusive range key, we need to bump the // slot up for each key part. For an upper bound, we bump up an inclusive key, but // only after the last key part. if (!range.isSingleKey() && exclusiveLower) { if (!ByteUtil.nextKey(key, offset)) { // Special case for not being able to increment. // In this case we return a negative byteOffset to // remove this part from the key being formed. Since the // key has overflowed, this means that we should not // have an end key specified. return -byteOffset; } } } if (lastInclusiveUpperSingleKey || anyInclusiveUpperRangeKey) { if (!ByteUtil.nextKey(key, offset)) { // Special case for not being able to increment. // In this case we return a negative byteOffset to // remove this part from the key being formed. Since the // key has overflowed, this means that we should not // have an end key specified. return -byteOffset; } } // Remove trailing separator bytes, since the columns may have been added // after the table has data, in which case there won't be a separator // byte. if (bound == Bound.LOWER) { while (--i >= schemaStartIndex && offset > byteOffset && !schema.getField(--fieldIndex).getDataType().isFixedWidth() && key[offset-1] == QueryConstants.SEPARATOR_BYTE) { offset--; fieldIndex -= slotSpan[i]; } } return offset - byteOffset; }
Example 19
Source File: RowValueConstructorExpression.java From phoenix with Apache License 2.0 | 4 votes |
@Override public boolean evaluate(Tuple tuple, ImmutableBytesWritable ptr) { if(literalExprPtr != null) { // if determined during construction that the row value constructor is just comprised of literal expressions, // let's just return the ptr we have already computed and be done with evaluation. ptr.set(literalExprPtr.get(), literalExprPtr.getOffset(), literalExprPtr.getLength()); return true; } try { int j; int expressionCount = counter; for(j = counter; j < ptrs.length; j++) { final Expression expression = children.get(j); // TODO: handle overflow and underflow if (expression.evaluate(tuple, ptr)) { if (ptr.getLength() == 0) { estimatedByteSize += getExpressionByteCount(expression); } else { expressionCount = j+1; ptrs[j] = new ImmutableBytesWritable(); ptrs[j].set(ptr.get(), ptr.getOffset(), ptr.getLength()); estimatedByteSize += ptr.getLength() + (expression.getDataType().isFixedWidth() ? 0 : 1); // 1 extra for the separator byte. } counter++; } else if (tuple == null || tuple.isImmutable()) { estimatedByteSize += getExpressionByteCount(expression); counter++; } else { return false; } } if (j == ptrs.length) { if (expressionCount == 0) { ptr.set(ByteUtil.EMPTY_BYTE_ARRAY); return true; } if (expressionCount == 1) { ptr.set(ptrs[0].get(), ptrs[0].getOffset(), ptrs[0].getLength()); return true; } TrustedByteArrayOutputStream output = new TrustedByteArrayOutputStream(estimatedByteSize); try { boolean previousCarryOver = false; for (int i = 0; i< expressionCount; i++) { Expression child = getChildren().get(i); PDataType childType = child.getDataType(); ImmutableBytesWritable tempPtr = ptrs[i]; if (tempPtr == null) { // Since we have a null and have no representation for null, // we must decrement the value of the current. Otherwise, // we'd have an ambiguity if this value happened to be the // min possible value. previousCarryOver = childType == null || childType.isFixedWidth(); int bytesToWrite = getExpressionByteCount(child); for (int m = 0; m < bytesToWrite; m++) { output.write(QueryConstants.SEPARATOR_BYTE); } } else { output.write(tempPtr.get(), tempPtr.getOffset(), tempPtr.getLength()); if (!childType.isFixedWidth()) { output.write(QueryConstants.SEPARATOR_BYTE); } if (previousCarryOver) { previousCarryOver = !ByteUtil.previousKey(output.getBuffer(), output.size()); } } } int outputSize = output.size(); byte[] outputBytes = output.getBuffer(); for (int k = expressionCount -1 ; k >=0 && getChildren().get(k).getDataType() != null && !getChildren().get(k).getDataType().isFixedWidth() && outputBytes[outputSize-1] == QueryConstants.SEPARATOR_BYTE ; k--) { outputSize--; } ptr.set(outputBytes, 0, outputSize); return true; } finally { output.close(); } } return false; } catch (IOException e) { throw new RuntimeException(e); //Impossible. } }
Example 20
Source File: RowKeySchema.java From phoenix with Apache License 2.0 | 4 votes |
@edu.umd.cs.findbugs.annotations.SuppressWarnings( value="NP_BOOLEAN_RETURN_NULL", justification="Designed to return null.") private Boolean next(ImmutableBytesWritable ptr, int position, int maxOffset, boolean isFirst) { if (ptr.getOffset() + ptr.getLength() >= maxOffset) { ptr.set(ptr.get(), maxOffset, 0); return null; } if (position >= getFieldCount()) { return null; } // Move the pointer past the current value and set length // to 0 to ensure you never set the ptr past the end of the // backing byte array. ptr.set(ptr.get(), ptr.getOffset() + ptr.getLength(), 0); // If positioned at SEPARATOR_BYTE, skip it. // Don't look back at previous fields if this is our first next call, as // we may have a partial key for RVCs that doesn't include the leading field. if (position > 0 && !isFirst && !getField(position-1).getDataType().isFixedWidth()) { ptr.set(ptr.get(), ptr.getOffset()+ptr.getLength()+1, 0); } Field field = this.getField(position); if (field.getDataType().isFixedWidth()) { // It is possible that the number of remaining row key bytes are less than the fixed // width size. See PHOENIX-3968. ptr.set(ptr.get(), ptr.getOffset(), Math.min(maxOffset - ptr.getOffset(), field.getByteSize())); } else { if (position+1 == getFieldCount() ) { // Last field has no terminator unless it's descending sort order int len = maxOffset - ptr.getOffset(); ptr.set(ptr.get(), ptr.getOffset(), maxOffset - ptr.getOffset() - (SchemaUtil.getSeparatorByte(rowKeyOrderOptimizable, len == 0, field) == QueryConstants.DESC_SEPARATOR_BYTE ? 1 : 0)); } else { byte[] buf = ptr.get(); int offset = ptr.getOffset(); // First byte if (offset < maxOffset && buf[offset] != QueryConstants.SEPARATOR_BYTE) { byte sepByte = SchemaUtil.getSeparatorByte(rowKeyOrderOptimizable, false, field); do { offset++; } while (offset < maxOffset && buf[offset] != sepByte); } ptr.set(buf, ptr.getOffset(), offset - ptr.getOffset()); } } return ptr.getLength() > 0; }