Package org.apache.drill.exec.vector
Class TinyIntVector
java.lang.Object
org.apache.drill.exec.vector.BaseValueVector
org.apache.drill.exec.vector.BaseDataValueVector
org.apache.drill.exec.vector.TinyIntVector
- All Implemented Interfaces:
Closeable
,AutoCloseable
,Iterable<ValueVector>
,FixedWidthVector
,ValueVector
TinyInt implements a vector of fixed width values. Elements in the
vector are accessed by position, starting from the logical start of the
vector. Values should be pushed onto the vector sequentially, but may be
accessed randomly.
- The width of each element is
VALUE_WIDTH
(= 1) byte. - The equivalent Java primitive is 'byte'.
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Nested Class Summary
Modifier and TypeClassDescriptionfinal class
final class
TinyInt.Mutator implements a mutable vector of fixed width values.Nested classes/interfaces inherited from class org.apache.drill.exec.vector.BaseValueVector
BaseValueVector.BaseAccessor, BaseValueVector.BaseMutator
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Field Summary
Modifier and TypeFieldDescriptionstatic final int
Maximum number of values that this fixed-width vector can hold and stay below the maximum vector size limit and/or stay below the maximum row count.static final int
Maximum number of values that this fixed-width vector can hold and stay below the maximum vector size limit.static final int
Actual maximum vector size, in bytes, given the number of fixed-width values that either fit in the maximum overall vector size, or that is no larger than the maximum vector item count.static final int
Width of each fixed-width value.Fields inherited from class org.apache.drill.exec.vector.BaseDataValueVector
data, emptyByteArray
Fields inherited from class org.apache.drill.exec.vector.BaseValueVector
allocator, field, INITIAL_VALUE_ALLOCATION, MAX_ALLOCATION_SIZE
Fields inherited from interface org.apache.drill.exec.vector.ValueVector
BITS_VECTOR_NAME, MAX_BUFFER_SIZE, MAX_ROW_COUNT, MIN_ROW_COUNT, OFFSETS_VECTOR_NAME, VALUES_VECTOR_NAME
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Constructor Summary
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Method Summary
Modifier and TypeMethodDescriptionvoid
Allocate new buffers.void
allocateNew
(int valueCount) Allocate a new buffer that supports setting at least the provided number of values.boolean
Allocates new buffers.void
copyEntry
(int toIndex, ValueVector from, int fromIndex) void
copyFrom
(int fromIndex, int thisIndex, TinyIntVector from) void
copyFromSafe
(int fromIndex, int thisIndex, TinyIntVector from) void
Returns anaccessor
that is used to read from this vector instance.int
getBufferSizeFor
(int valueCount) Returns the number of bytes that is used by this vector if it holds the given number of values.Returns anmutator
that is used to write to this vector instance.int
getPayloadByteCount
(int valueCount) Return the number of value bytes consumed by actual data.Returns afield reader
that supports reading values from this vector.getTransferPair
(String ref, BufferAllocator allocator) getTransferPair
(BufferAllocator allocator) Returns atransfer pair
, creating a new target vector of the same type.int
Returns the maximum number of values that can be stored in this vector instance.int
The width of a record in bytes.void
load
(UserBitShared.SerializedField metadata, DrillBuf buffer) Load the data provided in the buffer.Returns a newtransfer pair
that is used to transfer underlying buffers into the target vector.void
reAlloc()
Allocate new buffer with double capacity, and copy data into the new buffer.reallocRaw
(int newAllocationSize) Core of vector allocation.void
reset()
This method has a similar effect of allocateNew() without actually clearing and reallocating the value vector.void
setInitialCapacity
(int valueCount) Set the initial record capacityvoid
splitAndTransferTo
(int startIndex, int length, TinyIntVector target) void
toNullable
(ValueVector nullableVector) Convert a non-nullable vector to nullable by shuffling the data from one to the other.void
transferTo
(TinyIntVector target) void
Zero out the underlying buffer backing this vector.Methods inherited from class org.apache.drill.exec.vector.BaseDataValueVector
clear, close, collectLedgers, exchange, getAllocatedSize, getBuffer, getBuffers, getBufferSize
Methods inherited from class org.apache.drill.exec.vector.BaseValueVector
checkBufRefs, fillBitsVector, getAllocator, getField, getField, getMetadata, getMetadataBuilder, iterator, toString
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait
Methods inherited from interface java.lang.Iterable
forEach, iterator, spliterator
Methods inherited from interface org.apache.drill.exec.vector.ValueVector
clear, close, collectLedgers, exchange, getAllocatedSize, getAllocator, getBuffers, getBufferSize, getField, getMetadata
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Field Details
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VALUE_WIDTH
public static final int VALUE_WIDTHWidth of each fixed-width value.- See Also:
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MAX_VALUE_COUNT
public static final int MAX_VALUE_COUNTMaximum number of values that this fixed-width vector can hold and stay below the maximum vector size limit. This is the limit enforced when the vector is used to hold values in a repeated vector. -
MAX_SCALAR_COUNT
public static final int MAX_SCALAR_COUNTMaximum number of values that this fixed-width vector can hold and stay below the maximum vector size limit and/or stay below the maximum row count. This is the limit enforced when the vector is used to hold scalar (required or nullable) values.Note: MAX_ROW_COUNT is defined in the parent ValueVector class as the maximum number of rows in a record batch (64K). Use this in place of the Character.MAX_SIZE value previously used.
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NET_MAX_SCALAR_SIZE
public static final int NET_MAX_SCALAR_SIZEActual maximum vector size, in bytes, given the number of fixed-width values that either fit in the maximum overall vector size, or that is no larger than the maximum vector item count.
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Constructor Details
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TinyIntVector
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Method Details
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getReader
Description copied from interface:ValueVector
Returns afield reader
that supports reading values from this vector.- Specified by:
getReader
in interfaceValueVector
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getBufferSizeFor
public int getBufferSizeFor(int valueCount) Description copied from interface:ValueVector
Returns the number of bytes that is used by this vector if it holds the given number of values. The result will be the same as if Mutator.setValueCount() were called, followed by calling getBufferSize(), but without any of the closing side-effects that setValueCount() implies wrt finishing off the population of a vector. Some operations might wish to use this to determine how much memory has been used by a vector so far, even though it is not finished being populated.- Specified by:
getBufferSizeFor
in interfaceValueVector
- Parameters:
valueCount
- the number of values to assume this vector contains- Returns:
- the buffer size if this vector is holding valueCount values
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getValueCapacity
public int getValueCapacity()Description copied from interface:ValueVector
Returns the maximum number of values that can be stored in this vector instance.- Specified by:
getValueCapacity
in interfaceValueVector
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getAccessor
Description copied from interface:ValueVector
Returns anaccessor
that is used to read from this vector instance.- Specified by:
getAccessor
in interfaceValueVector
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getMutator
Description copied from interface:ValueVector
Returns anmutator
that is used to write to this vector instance.- Specified by:
getMutator
in interfaceValueVector
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setInitialCapacity
public void setInitialCapacity(int valueCount) Description copied from interface:ValueVector
Set the initial record capacity- Specified by:
setInitialCapacity
in interfaceValueVector
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allocateNew
public void allocateNew()Description copied from interface:ValueVector
Allocate new buffers. ValueVector implements logic to determine how much to allocate.- Specified by:
allocateNew
in interfaceValueVector
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allocateNewSafe
public boolean allocateNewSafe()Description copied from interface:ValueVector
Allocates new buffers. ValueVector implements logic to determine how much to allocate.- Specified by:
allocateNewSafe
in interfaceValueVector
- Returns:
- Returns true if allocation was successful.
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allocateNew
public void allocateNew(int valueCount) Allocate a new buffer that supports setting at least the provided number of values. May actually be sized bigger depending on underlying buffer rounding size. Must be called prior to using the ValueVector. Note that the maximum number of values a vector can allocate is Integer.MAX_VALUE / value width.- Specified by:
allocateNew
in interfaceFixedWidthVector
- Parameters:
valueCount
-- Throws:
OutOfMemoryException
- if it can't allocate the new buffer
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reset
public void reset()Description copied from class:BaseDataValueVector
This method has a similar effect of allocateNew() without actually clearing and reallocating the value vector. The purpose is to move the value vector to a "mutate" state- Overrides:
reset
in classBaseDataValueVector
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reAlloc
public void reAlloc()Allocate new buffer with double capacity, and copy data into the new buffer. Replace vector's buffer with new buffer, and release old one- Throws:
org.apache.drill.exec.memory.OutOfMemoryException
- if it can't allocate the new buffer
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reallocRaw
Description copied from class:BaseDataValueVector
Core of vector allocation. Given a new size (which must be a power of two), allocate the new buffer, copy the current values, and leave the unused parts garbage-filled.- Specified by:
reallocRaw
in classBaseDataValueVector
- Parameters:
newAllocationSize
- new buffer size as a power of two- Returns:
- the new buffer
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zeroVector
public void zeroVector()Zero out the underlying buffer backing this vector.- Specified by:
zeroVector
in interfaceFixedWidthVector
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getTransferPair
Description copied from interface:ValueVector
Returns atransfer pair
, creating a new target vector of the same type.- Specified by:
getTransferPair
in interfaceValueVector
- Overrides:
getTransferPair
in classBaseValueVector
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getTransferPair
- Specified by:
getTransferPair
in interfaceValueVector
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makeTransferPair
Description copied from interface:ValueVector
Returns a newtransfer pair
that is used to transfer underlying buffers into the target vector.- Specified by:
makeTransferPair
in interfaceValueVector
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transferTo
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splitAndTransferTo
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getPayloadByteCount
public int getPayloadByteCount(int valueCount) Description copied from interface:ValueVector
Return the number of value bytes consumed by actual data.- Specified by:
getPayloadByteCount
in interfaceValueVector
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getValueWidth
public int getValueWidth()Description copied from interface:FixedWidthVector
The width of a record in bytes.- Specified by:
getValueWidth
in interfaceFixedWidthVector
- Returns:
- The width of a record in bytes.
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copyFrom
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copyFromSafe
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copyEntry
- Specified by:
copyEntry
in interfaceValueVector
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decrementAllocationMonitor
public void decrementAllocationMonitor() -
toNullable
Description copied from interface:ValueVector
Convert a non-nullable vector to nullable by shuffling the data from one to the other. Avoids the need to generate copy code just to change mode. If this vector is non-nullable, accepts a nullable dual (same minor type, different mode.) If the vector is non-nullable, or non-scalar, then throws an exception.- Specified by:
toNullable
in interfaceValueVector
- Overrides:
toNullable
in classBaseValueVector
- Parameters:
nullableVector
- nullable vector of the same minor type as this vector
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