NAME¶
Attributes_of_Variables - Attributes of Variables.
__attribute__ ((aligned)) __attribute__ ((aligned (n)))
__attribute__ ((packed)) __attribute__ ((endian(host))) __attribute__
((endian(device))) |
DESCRIPTION¶
The keyword
__attribute__ allows you to specify special attributes of
variables or structure fields. This keyword is followed by an attribute
specification inside double parentheses. The aligned, packed, and endian
attribute qualifiers are defined below.
aligned ( alignment)¶
This attribute specifies a minimum alignment for the variable or structure
field, measured in bytes. For example, the declaration:
int x __attribute__ ((aligned (16))) = 0; |
causes the compiler to allocate the global variable x on a 16-byte boundary. The
alignment value specified must be a power of two.
You can also specify the alignment of structure fields. For example, to create
double-word aligned int pair, you could write:
struct foo { int x[2] __attribute__ ((aligned (8))); }; |
This is an alternative to creating a union with a double member that forces the
union to be double-word aligned.
As in the preceding examples, you can explicitly specify the alignment (in
bytes) that you wish the compiler to use for a given variable or structure
field. Alternatively, you can leave out the alignment factor and just ask the
compiler to align a variable or field to the maximum useful alignment for the
target machine you are compiling for. For example, you could write:
short array[3] __attribute__ ((aligned)); |
Whenever you leave out the alignment factor in an aligned attribute
specification, the OpenCL compiler automatically sets the alignment for the
declared variable or field to the largest alignment which is ever used for any
data type on the target device you are compiling for.
When used on a struct, or struct member, the aligned attribute can only increase
the alignment; in order to decrease it, the packed attribute must be specified
as well. When used as part of a typedef, the aligned attribute can both
increase and decrease alignment, and specifying the packed attribute will
generate a warning.
Note that the effectiveness of aligned attributes may be limited by inherent
limitations of the OpenCL device and compiler. For some devices, the OpenCL
compiler may only be able to arrange for variables to be aligned up to a
certain maximum alignment. If the OpenCL compiler is only able to align
variables up to a maximum of 8 byte alignment, then specifying aligned(16) in
an __attribute__ will still only provide you with 8 byte alignment. See your
platform-specific documentation for further information.
packed¶
The packed attribute specifies that a variable or structure field should have
the smallest possible alignment -- one byte for a variable, unless you specify
a larger value with the aligned attribute.
Here is a structure in which the field x is packed, so that it immediately
follows a:
struct foo { char a; int x[2] __attribute__ ((packed)); }; |
An attribute list placed at the beginning of a user-defined type applies to the
variable of that type and not the type, while attributes following the type
body apply to the type.
For example:
/* a has alignment of 128 */ __attribute__((aligned(128))) struct A {int
i;} a; /* b has alignment of 16 */ __attribute__((aligned(16))) struct B
{double d;} __attribute__((aligned(32))) b ; struct A a1; /* a1 has
alignment of 4 */ struct B b1; /* b1 has alignment of 32 */ |
endian ( endiantype)¶
The endian attribute determines the byte ordering of a variable. endiantype can
be set to host indicating the variable uses the endianness of the host
processor or can be set to device indicating the variable uses the endianness
of the device on which the kernel will be executed. The default is device. For
example:
float4 *p __attribute__ ((endian(host))); |
specifies that data stored in memory pointed to by p will be in the host endian
format.
SPECIFICATION¶
OpenCL Specification[1]
SEE ALSO¶
attribute(3clc),
attributes-blocksAndControlFlow(3clc),
attributes-types(3clc)
AUTHORS¶
The Khronos Group
COPYRIGHT¶
Copyright © 2007-2011 The Khronos Group Inc.
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and/or associated documentation files (the
"Materials"), to deal in the Materials without restriction,
including without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Materials, and to permit
persons to whom the Materials are furnished to do so, subject to the condition
that this copyright notice and permission notice shall be included in all
copies or substantial portions of the Materials.
NOTES¶
- 1.
- OpenCL Specification
page 239, section 6.11.3 - Specifying Attributes of
Variables