SYNC(3F)SYNC(3F)NAME
sync: synchronize, fetch_and_add, fetch_and_sub, fetch_and_or,
fetch_and_and, fetch_and_xor, fetch_and_nand, add_and_fetch,
sub_and_fetch, or_and_fetch, and_and_fetch, xor_and_fetch,
nand_and_fetch, lock_test_and_set, lock_release - FORTRAN synchronization
primitives for multiprocessing
SYNOPSIS
integer*4 i4, j4, k4, jj4
integer*8 i8, j8, k8, jj8
logical*4 l4
logical*8 l8
call synchronize
i4 = fetch_and_add (j4, k4)
i8 = fetch_and_add (j8, k8)
i4 = fetch_and_sub (j4, k4)
i8 = fetch_and_sub (j8, k8)
i4 = fetch_and_or (j4, k4)
i8 = fetch_and_or (j8, k8)
i4 = fetch_and_and (j4, k4)
i8 = fetch_and_and (j8, k8)
i4 = fetch_and_xor (j4, k4)
i8 = fetch_and_xor (j8, k8)
i4 = fetch_and_nand (j4, k4)
i8 = fetch_and_nand (j8, k8)
i4 = add_and_fetch (j4, k4)
i8 = add_and_fetch (j8, k8)
i4 = sub_and_fetch (j4, k4)
i8 = sub_and_fetch (j8, k8)
i4 = or_and_fetch (j4, k4)
i8 = or_and_fetch (j8, k8)
i4 = and_and_fetch (j4, k4)
i8 = and_and_fetch (j8, k8)
i4 = xor_and_fetch (j4, k4)
i8 = xor_and_fetch (j8, k8)
i4 = nand_and_fetch (j4, k4)
i8 = nand_and_fetch (j8, k8)
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l4 = compare_and_swap( j4, k4, jj4)
l8 = compare_and_swap( j8, k8, jj8)
i4 = lock_test_and_set (j4 , k4)
i8 = lock_test_and_set (j8 , k8)
call lock_release(i4)
call lock_release(i8)DESCRIPTION
The intrinsics described here provide a variety of primitive
synchronization operations. Besides performing the particular
synchronization operation, each of these intrinsics has two key
properties:
The function performed is guaranteed to be atomic (typically achieved
by implementing the operation using a sequence of load-linked/store-
conditional instructions in a loop).
Associated with each intrinsic are certain memory barrier properties
that restrict the movement of memory references to visible data
across the intrinsic operation (by either the compiler or the
processor).
A visible memory reference is a reference to a data object
potentially accessible by another thread executing in the same shared
address space. A visible data object may be one of the following:
C/C++ global data
Fortran COMMON data
data declared extern
volatile data
static data (either file-scope or function-scope)
data accessible via function parameters
automatic data (local-scope) that has had its address taken and
assigned to some object which is visible (recursively).
The memory barrier semantics of an intrinsic may be one of the
following three types:
acquire barrier
Disallows the movement of memory references to visible data from
after the intrinsic (in program order) to before the intrinsic
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(this behavior is desirable at lock-acquire operations, hence the
name).
release barrier
Disallows the movement of memory references to visible data from
before the intrinsic (in program order) to after the intrinsic
(this behavior is desirable at lock-release operations, hence the
name).
full barrier
Disallows the movement of memory references to visible data past
the intrinsic (in either direction), and is thus both an acquire
and a release barrier. A barrier only restricts the movement of
memory references to visible data across the intrinsic operation:
between synchronization operations (or in their absence), memory
references to visible data may be freely reordered subject to the
usual data-dependence constraints.
Caution: Conditional execution of a synchronization intrinsic (such as
within a if or a while statement) does not prevent the movement of memory
references to visible data past the overall if or while construct.
Atomic fetch-and-op Operations
fetch_and_add, fetch_and_sub, fetch_and_or, fetch_and_and, fetch_and_xor
and fetch_and_nand atomically perform the specified operation with the
second operand on the first, and return the old value of the first
operand. These intrinsics have full barrier memory semantics. Integer*4
and Integer*8 specific versions of these intrinsics carry the _32 and _64
suffix on the intrinsic name.
Atomic op-and-fetch Operations
add_and_fetch, sub_and_fetch, or_and_fetch, and_and_fetch, xor_and_fetch
and nand_and_fetch atomically perform the specified operation with the
second operand on the first, and return the new value of the first
operand. These intrinics have full barrier memory semantics. Integer*4
and Integer*8 specific versions of these intrinsics carry the _32 and _64
suffix on the intrinsic name.
Atomic compare-and-swap Operation
The compare_and_swap intrinsics atomically compare the value of the first
operand to the value of the second. If they are equal, the intrinsics
store the value of the third operand into the first operand and return
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TRUE. Otherwise, they return FALSE. These intrinics have full barrier
memory semantics. Integer*4 and Integer*8 specific versions of these
intrinsics carry the _32 and _64 suffix on the intrinsic name.
Atomic synchronize Operation
The synchronize intrinsic has full barrier memory semantics.
Atomic lock-test-and-set Operation
The lock_test_and_set intrinsics atomically store the value of the second
operand into the first and return the old value of the first operand.
They have acquire barrier memory semantics. Integer*4 and Integer*8
specific versions of these intrinsics carry the _32 and _64 suffix on the
intrinsic name.
Atomic lock_release Operation
The lock_release intrinsics set the first operand to zero. They have
release barrier memory semantics. Integer*4 and Integer*8 specific
versions of these intrinsics carry the _32 and _64 suffix on the
intrinsic name.
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