Class MemoryAccess

java.lang.Object
jdk.incubator.foreign.MemoryAccess

public final class MemoryAccess extends Object
This class defines ready-made static accessors which can be used to dereference memory segments in many ways.

The most primitive accessors (see getIntAtOffset(MemorySegment, long, ByteOrder)) take a segment, an offset (expressed in bytes) and a byte order. The final address at which the dereference will occur will be computed by offsetting the base address by the specified offset, as if by calling MemoryAddress.addOffset(long) on the specified base address.

In cases where no offset is required, overloads are provided (see getInt(MemorySegment, ByteOrder)) so that clients can omit the offset coordinate.

To help dereferencing in array-like use cases (e.g. where the layout of a given memory segment is a sequence layout of given size an element count), higher-level overloads are also provided (see getIntAtIndex(MemorySegment, long, ByteOrder)), which take a segment and a logical element index. The formula to obtain the byte offset O from an index I is given by O = I * S where S is the size (expressed in bytes) of the element to be dereferenced.

In cases where native byte order is preferred, overloads are provided (see getIntAtOffset(MemorySegment, long)) so that clients can omit the byte order parameter.

Unless otherwise specified, passing a null argument, or an array argument containing one or more null elements to a method in this class causes a NullPointerException to be thrown.

  • Method Details

    • getByteAtOffset

      public static byte getByteAtOffset(MemorySegment segment, long offset)
      Reads a byte from given segment and offset.
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      Returns:
      a byte value read from segment.
    • setByteAtOffset

      public static void setByteAtOffset(MemorySegment segment, long offset, byte value)
      Writes a byte at given segment and offset.
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      value - the byte value to be written.
    • getCharAtOffset

      public static char getCharAtOffset(MemorySegment segment, long offset)
      Reads a char from given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          getCharAtOffset(segment, offset, ByteOrder.nativeOrder());
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      Returns:
      a char value read from segment.
    • setCharAtOffset

      public static void setCharAtOffset(MemorySegment segment, long offset, char value)
      Writes a char at given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setCharAtOffset(segment, offset, ByteOrder.nativeOrder(), value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      value - the char value to be written.
    • getShortAtOffset

      public static short getShortAtOffset(MemorySegment segment, long offset)
      Reads a short from given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          getShortAtOffset(segment, offset, ByteOrder.nativeOrder());
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      Returns:
      a short value read from segment.
    • setShortAtOffset

      public static void setShortAtOffset(MemorySegment segment, long offset, short value)
      Writes a short at given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setShortAtOffset(segment, offset, ByteOrder.nativeOrder(), value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      value - the short value to be written.
    • getIntAtOffset

      public static int getIntAtOffset(MemorySegment segment, long offset)
      Reads an int from given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          getIntAtOffset(segment, offset, ByteOrder.nativeOrder());
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      Returns:
      an int value read from segment.
    • setIntAtOffset

      public static void setIntAtOffset(MemorySegment segment, long offset, int value)
      Writes an int at given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setIntAtOffset(segment, offset, ByteOrder.nativeOrder(), value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      value - the int value to be written.
    • getFloatAtOffset

      public static float getFloatAtOffset(MemorySegment segment, long offset)
      Reads a float from given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          getFloatAtOffset(segment, offset, ByteOrder.nativeOrder());
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      Returns:
      a float value read from segment.
    • setFloatAtOffset

      public static void setFloatAtOffset(MemorySegment segment, long offset, float value)
      Writes a float at given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setFloatAtOffset(segment, offset, ByteOrder.nativeOrder(), value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      value - the float value to be written.
    • getLongAtOffset

      public static long getLongAtOffset(MemorySegment segment, long offset)
      Reads a long from given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          getLongAtOffset(segment, offset, ByteOrder.nativeOrder());
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      Returns:
      a long value read from segment.
    • setLongAtOffset

      public static void setLongAtOffset(MemorySegment segment, long offset, long value)
      Writes a long at given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setLongAtOffset(segment, offset, ByteOrder.nativeOrder(), value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      value - the long value to be written.
    • getDoubleAtOffset

      public static double getDoubleAtOffset(MemorySegment segment, long offset)
      Reads a double from given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          getDoubleAtOffset(segment, offset, ByteOrder.nativeOrder());
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      Returns:
      a double value read from segment.
    • setDoubleAtOffset

      public static void setDoubleAtOffset(MemorySegment segment, long offset, double value)
      Writes a double at given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setDoubleAtOffset(segment, offset, ByteOrder.nativeOrder(), value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      value - the double value to be written.
    • getAddressAtOffset

      public static MemoryAddress getAddressAtOffset(MemorySegment segment, long offset)
      Reads a memory address from given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent (e.g. on a 64-bit platform) to the following code:

      
          VarHandle handle = MemoryHandles.asAddressHandle(MemoryHandles.varHandle(long.class, ByteOrder.nativeOrder()));
          MemoryAddress value = (MemoryAddress)handle.get(segment, offset);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      Returns:
      a memory address read from segment.
    • setAddressAtOffset

      public static void setAddressAtOffset(MemorySegment segment, long offset, Addressable value)
      Writes a memory address at given segment and offset, with byte order set to ByteOrder.nativeOrder().

      This is equivalent (e.g. on a 64-bit platform) to the following code:

      
          VarHandle handle = MemoryHandles.asAddressHandle(MemoryHandles.varHandle(long.class, ByteOrder.nativeOrder()));
          handle.set(segment, offset, value.address());
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      value - the memory address to be written (expressed as an Addressable instance).
    • getCharAtOffset

      public static char getCharAtOffset(MemorySegment segment, long offset, ByteOrder order)
      Reads a char from given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(char.class, 1, order);
          char value = (char)handle.get(segment, offset);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      Returns:
      a char value read from segment.
    • setCharAtOffset

      public static void setCharAtOffset(MemorySegment segment, long offset, ByteOrder order, char value)
      Writes a char at given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(char.class, 1, order);
          handle.set(segment, offset, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      value - the char value to be written.
    • getShortAtOffset

      public static short getShortAtOffset(MemorySegment segment, long offset, ByteOrder order)
      Reads a short from given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(short.class, 1, order);
          short value = (short)handle.get(segment, offset);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      Returns:
      a short value read from segment.
    • setShortAtOffset

      public static void setShortAtOffset(MemorySegment segment, long offset, ByteOrder order, short value)
      Writes a short at given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(short.class, 1, order);
          handle.set(segment, offset, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      value - the short value to be written.
    • getIntAtOffset

      public static int getIntAtOffset(MemorySegment segment, long offset, ByteOrder order)
      Reads an int from given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(int.class, 1, order);
          int value = (int)handle.get(segment, offset);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      Returns:
      an int value read from segment.
    • setIntAtOffset

      public static void setIntAtOffset(MemorySegment segment, long offset, ByteOrder order, int value)
      Writes an int at given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(int.class, 1, order);
          handle.set(segment, offset, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      value - the int value to be written.
    • getFloatAtOffset

      public static float getFloatAtOffset(MemorySegment segment, long offset, ByteOrder order)
      Reads a float from given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(float.class, 1, order);
          float value = (float)handle.get(segment, offset);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      Returns:
      a float value read from segment.
    • setFloatAtOffset

      public static void setFloatAtOffset(MemorySegment segment, long offset, ByteOrder order, float value)
      Writes a float at given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(float.class, 1, order);
          handle.set(segment, offset, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      value - the float value to be written.
    • getLongAtOffset

      public static long getLongAtOffset(MemorySegment segment, long offset, ByteOrder order)
      Reads a long from given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(long.class, 1, order);
          long value = (long)handle.get(segment, offset);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      Returns:
      a long value read from segment.
    • setLongAtOffset

      public static void setLongAtOffset(MemorySegment segment, long offset, ByteOrder order, long value)
      Writes a long at given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(long.class, 1, order);
          handle.set(segment, offset, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      value - the long value to be written.
    • getDoubleAtOffset

      public static double getDoubleAtOffset(MemorySegment segment, long offset, ByteOrder order)
      Reads a double from given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(double.class, 1, order);
          double value = (double)handle.get(segment, offset);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      Returns:
      a double value read from segment.
    • setDoubleAtOffset

      public static void setDoubleAtOffset(MemorySegment segment, long offset, ByteOrder order, double value)
      Writes a double at given segment and offset with given byte order.

      This is equivalent to the following code:

      
          VarHandle handle = MemoryHandles.varHandle(double.class, 1, order);
          handle.set(segment, offset, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      offset - offset in bytes (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(offset).
      order - the specified byte order.
      value - the double value to be written.
    • getByte

      public static byte getByte(MemorySegment segment)
      Reads a byte from given segment.

      This is equivalent to the following code:

      
          byte value = getByteAtOffset(segment, 0L);
       
      Parameters:
      segment - the segment to be dereferenced.
      Returns:
      a byte value read from segment.
    • setByte

      public static void setByte(MemorySegment segment, byte value)
      Writes a byte at given segment.

      This is equivalent to the following code:

      
          setByteAtOffset(segment, 0L, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      value - the byte value to be written.
    • getChar

      public static char getChar(MemorySegment segment)
      Reads a char from given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          char value = getCharAtOffset(segment, 0L);
       
      Parameters:
      segment - the segment to be dereferenced.
      Returns:
      a char value read from segment.
    • setChar

      public static void setChar(MemorySegment segment, char value)
      Writes a char at given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setCharAtOffset(segment, 0L, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      value - the char value to be written.
    • getShort

      public static short getShort(MemorySegment segment)
      Reads a short from given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          short value = getShortAtOffset(segment, 0L);
       
      Parameters:
      segment - the segment to be dereferenced.
      Returns:
      a short value read from segment.
    • setShort

      public static void setShort(MemorySegment segment, short value)
      Writes a short at given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setShortAtOffset(segment, 0L, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      value - the short value to be written.
    • getInt

      public static int getInt(MemorySegment segment)
      Reads an int from given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          int value = getIntAtOffset(segment, 0L);
       
      Parameters:
      segment - the segment to be dereferenced.
      Returns:
      an int value read from segment.
    • setInt

      public static void setInt(MemorySegment segment, int value)
      Writes an int at given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setIntAtOffset(segment, 0L, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      value - the int value to be written.
    • getFloat

      public static float getFloat(MemorySegment segment)
      Reads a float from given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          float value = getFloatAtOffset(segment, 0L);
       
      Parameters:
      segment - the segment to be dereferenced.
      Returns:
      a float value read from segment.
    • setFloat

      public static void setFloat(MemorySegment segment, float value)
      Writes a float at given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setFloatAtOffset(segment, 0L, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      value - the float value to be written.
    • getLong

      public static long getLong(MemorySegment segment)
      Reads a long from given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          long value = getLongAtOffset(segment, 0L);
       
      Parameters:
      segment - the segment to be dereferenced.
      Returns:
      a long value read from segment.
    • setLong

      public static void setLong(MemorySegment segment, long value)
      Writes a long at given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setLongAtOffset(segment, 0L, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      value - the long value to be written.
    • getDouble

      public static double getDouble(MemorySegment segment)
      Reads a double from given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          double value = getDoubleAtOffset(segment, 0L);
       
      Parameters:
      segment - the segment to be dereferenced.
      Returns:
      a double value read from segment.
    • setDouble

      public static void setDouble(MemorySegment segment, double value)
      Writes a double at given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setDoubleAtOffset(segment, 0L, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      value - the double value to be written.
    • getAddress

      public static MemoryAddress getAddress(MemorySegment segment)
      Reads a memory address from given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          MemoryAddress value = getAddressAtOffset(segment, 0L);
       
      Parameters:
      segment - the segment to be dereferenced.
      Returns:
      a memory address read from segment.
    • setAddress

      public static void setAddress(MemorySegment segment, Addressable value)
      Writes a memory address at given segment, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setAddressAtOffset(segment, 0L, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      value - the memory address to be written (expressed as an Addressable instance).
    • getChar

      public static char getChar(MemorySegment segment, ByteOrder order)
      Reads a char from given segment, with given byte order.

      This is equivalent to the following code:

      
          char value = getCharAtOffset(segment, 0L, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      Returns:
      a char value read from segment.
    • setChar

      public static void setChar(MemorySegment segment, ByteOrder order, char value)
      Writes a char at given segment, with given byte order.

      This is equivalent to the following code:

      
          setCharAtOffset(segment, 0L, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      value - the char value to be written.
    • getShort

      public static short getShort(MemorySegment segment, ByteOrder order)
      Reads a short from given segment, with given byte order.

      This is equivalent to the following code:

      
          short value = getShortAtOffset(segment, 0L, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      Returns:
      a short value read from segment.
    • setShort

      public static void setShort(MemorySegment segment, ByteOrder order, short value)
      Writes a short at given segment, with given byte order.

      This is equivalent to the following code:

      
          setShortAtOffset(segment, 0L, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      value - the short value to be written.
    • getInt

      public static int getInt(MemorySegment segment, ByteOrder order)
      Reads an int from given segment, with given byte order.

      This is equivalent to the following code:

      
          int value = getIntAtOffset(segment, 0L, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      Returns:
      an int value read from segment.
    • setInt

      public static void setInt(MemorySegment segment, ByteOrder order, int value)
      Writes an int at given segment, with given byte order.

      This is equivalent to the following code:

      
          setIntAtOffset(segment, 0L, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      value - the int value to be written.
    • getFloat

      public static float getFloat(MemorySegment segment, ByteOrder order)
      Reads a float from given segment, with given byte order.

      This is equivalent to the following code:

      
          float value = getFloatAtOffset(segment, 0L, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      Returns:
      a float value read from segment.
    • setFloat

      public static void setFloat(MemorySegment segment, ByteOrder order, float value)
      Writes a float at given segment, with given byte order.

      This is equivalent to the following code:

      
          setFloatAtOffset(segment, 0L, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      value - the float value to be written.
    • getLong

      public static long getLong(MemorySegment segment, ByteOrder order)
      Reads a long from given segment, with given byte order.

      This is equivalent to the following code:

      
          long value = getLongAtOffset(segment, 0L, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      Returns:
      a long value read from segment.
    • setLong

      public static void setLong(MemorySegment segment, ByteOrder order, long value)
      Writes a long at given segment, with given byte order.

      This is equivalent to the following code:

      
          setLongAtOffset(segment, 0L, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      value - the long value to be written.
    • getDouble

      public static double getDouble(MemorySegment segment, ByteOrder order)
      Reads a double from given segment, with given byte order.

      This is equivalent to the following code:

      
          double value = getDoubleAtOffset(segment, 0L, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      Returns:
      a double value read from segment.
    • setDouble

      public static void setDouble(MemorySegment segment, ByteOrder order, double value)
      Writes a double at given segment, with given byte order.

      This is equivalent to the following code:

      
          setDoubleAtOffset(segment, 0L, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      order - the specified byte order.
      value - the double value to be written.
    • getCharAtIndex

      public static char getCharAtIndex(MemorySegment segment, long index)
      Reads a char from given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          char value = getCharAtOffset(segment, 2 * index);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 2).
      Returns:
      a char value read from segment at the element index specified by index.
    • setCharAtIndex

      public static void setCharAtIndex(MemorySegment segment, long index, char value)
      Writes a char at given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setCharAtOffset(segment, 2 * index, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 2).
      value - the char value to be written.
    • getShortAtIndex

      public static short getShortAtIndex(MemorySegment segment, long index)
      Reads a short from given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          short value = getShortAtOffset(segment, 2 * index);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 2).
      Returns:
      a short value read from segment at the element index specified by index.
    • setShortAtIndex

      public static void setShortAtIndex(MemorySegment segment, long index, short value)
      Writes a short at given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setShortAtOffset(segment, 2 * index, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 2).
      value - the short value to be written.
    • getIntAtIndex

      public static int getIntAtIndex(MemorySegment segment, long index)
      Reads an int from given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          int value = getIntAtOffset(segment, 4 * index);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 4).
      Returns:
      an int value read from segment at the element index specified by index.
    • setIntAtIndex

      public static void setIntAtIndex(MemorySegment segment, long index, int value)
      Writes an int at given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setIntAtOffset(segment, 4 * index, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 4).
      value - the int value to be written.
    • getFloatAtIndex

      public static float getFloatAtIndex(MemorySegment segment, long index)
      Reads a float from given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          float value = getFloatAtOffset(segment, 4 * index);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 4).
      Returns:
      a float value read from segment at the element index specified by index.
    • setFloatAtIndex

      public static void setFloatAtIndex(MemorySegment segment, long index, float value)
      Writes a float at given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setFloatAtOffset(segment, 4 * index, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 4).
      value - the float value to be written.
    • getLongAtIndex

      public static long getLongAtIndex(MemorySegment segment, long index)
      Reads a long from given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          return getLongAtOffset(segment, 8 * index);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      Returns:
      a long value read from segment at the element index specified by index.
    • setLongAtIndex

      public static void setLongAtIndex(MemorySegment segment, long index, long value)
      Writes a long at given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setLongAtOffset(segment, 8 * index, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      value - the long value to be written.
    • getDoubleAtIndex

      public static double getDoubleAtIndex(MemorySegment segment, long index)
      Reads a double from given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          return getDoubleAtOffset(segment, 8 * index);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      Returns:
      a double value read from segment at the element index specified by index.
    • setDoubleAtIndex

      public static void setDoubleAtIndex(MemorySegment segment, long index, double value)
      Writes a double at given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setDoubleAtOffset(segment, 8 * index, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      value - the double value to be written.
    • getAddressAtIndex

      public static MemoryAddress getAddressAtIndex(MemorySegment segment, long index)
      Reads a memory address from given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          return getAddressAtOffset(segment, index * MemoryLayouts.ADDRESS.byteSize());
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      Returns:
      a memory address read from segment at the element index specified by index.
    • setAddressAtIndex

      public static void setAddressAtIndex(MemorySegment segment, long index, Addressable value)
      Writes a memory address at given segment and element index, with byte order set to ByteOrder.nativeOrder().

      This is equivalent to the following code:

      
          setAddressAtOffset(segment, index * MemoryLayouts.ADDRESS.byteSize(), value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      value - the memory address to be written (expressed as an Addressable instance).
    • getCharAtIndex

      public static char getCharAtIndex(MemorySegment segment, long index, ByteOrder order)
      Reads a char from given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          char value = getCharAtOffset(segment, 2 * index, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 2).
      order - the specified byte order.
      Returns:
      a char value read from segment at the element index specified by index.
    • setCharAtIndex

      public static void setCharAtIndex(MemorySegment segment, long index, ByteOrder order, char value)
      Writes a char at given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          setCharAtOffset(segment, 2 * index, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 2).
      order - the specified byte order.
      value - the char value to be written.
    • getShortAtIndex

      public static short getShortAtIndex(MemorySegment segment, long index, ByteOrder order)
      Reads a short from given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          short value = getShortAtOffset(segment, 2 * index, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 2).
      order - the specified byte order.
      Returns:
      a short value read from segment at the element index specified by index.
    • setShortAtIndex

      public static void setShortAtIndex(MemorySegment segment, long index, ByteOrder order, short value)
      Writes a short at given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          setShortAtOffset(segment, 2 * index, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 2).
      order - the specified byte order.
      value - the short value to be written.
    • getIntAtIndex

      public static int getIntAtIndex(MemorySegment segment, long index, ByteOrder order)
      Reads an int from given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          int value = getIntAtOffset(segment, 4 * index, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 4).
      order - the specified byte order.
      Returns:
      an int value read from segment at the element index specified by index.
    • setIntAtIndex

      public static void setIntAtIndex(MemorySegment segment, long index, ByteOrder order, int value)
      Writes an int at given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          setIntAtOffset(segment, 4 * index, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 4).
      order - the specified byte order.
      value - the int value to be written.
    • getFloatAtIndex

      public static float getFloatAtIndex(MemorySegment segment, long index, ByteOrder order)
      Reads a float from given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          float value = getFloatAtOffset(segment, 4 * index, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 4).
      order - the specified byte order.
      Returns:
      a float value read from segment at the element index specified by index.
    • setFloatAtIndex

      public static void setFloatAtIndex(MemorySegment segment, long index, ByteOrder order, float value)
      Writes a float at given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          setFloatAtOffset(segment, 4 * index, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 4).
      order - the specified byte order.
      value - the float value to be written.
    • getLongAtIndex

      public static long getLongAtIndex(MemorySegment segment, long index, ByteOrder order)
      Reads a long from given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          return getLongAtOffset(segment, 8 * index, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      order - the specified byte order.
      Returns:
      a long value read from segment at the element index specified by index.
    • setLongAtIndex

      public static void setLongAtIndex(MemorySegment segment, long index, ByteOrder order, long value)
      Writes a long at given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          setLongAtOffset(segment, 8 * index, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      order - the specified byte order.
      value - the long value to be written.
    • getDoubleAtIndex

      public static double getDoubleAtIndex(MemorySegment segment, long index, ByteOrder order)
      Reads a double from given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          return getDoubleAtOffset(segment, 8 * index, order);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      order - the specified byte order.
      Returns:
      a double value read from segment at the element index specified by index.
    • setDoubleAtIndex

      public static void setDoubleAtIndex(MemorySegment segment, long index, ByteOrder order, double value)
      Writes a double at given segment and element index, with given byte order.

      This is equivalent to the following code:

      
          setDoubleAtOffset(segment, 8 * index, order, value);
       
      Parameters:
      segment - the segment to be dereferenced.
      index - element index (relative to segment). The final address of this read operation can be expressed as segment.address().addOffset(index * 8).
      order - the specified byte order.
      value - the double value to be written.