237 строки
8.3 KiB
C
237 строки
8.3 KiB
C
/*
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* Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
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* University Research and Technology
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* Corporation. All rights reserved.
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* Copyright (c) 2004-2005 The University of Tennessee and The University
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* of Tennessee Research Foundation. All rights
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* reserved.
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* Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
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* University of Stuttgart. All rights reserved.
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* Copyright (c) 2004-2005 The Regents of the University of California.
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* All rights reserved.
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* $COPYRIGHT$
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*
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* Additional copyrights may follow
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*
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* $HEADER$
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*
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*/
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/** @file
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*
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* A bitmap implementation. The bits start off with 0, so this bitmap
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* has bits numbered as bit 0, bit 1, bit 2 and so on. This bitmap
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* has auto-expansion capabilities, that is once the size is set
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* during init, it can be automatically expanded by setting the bit
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* beyond the current size. But note, this is allowed just when the
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* bit is set -- so the valid functions are set_bit and
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* find_and_set_bit. Other functions like clear, if passed a bit
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* outside the initialized range will result in an error.
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*
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* Since these bitmaps are only used to track fortran handles (which
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* MPI defines to be int's), it is assumed that we can never have more
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* than OMPI_FORTRAN_HANDLE_MAX (which is min(INT_MAX, fortran
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* INTEGER max)).
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*
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* --------------------------------------------------------------------
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*
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* There are several classes that have forked between their OMPI and
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* ORTE implementations. As of this writing:
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*
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* - ompi_bitmap and orte_bitmap
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* - ompi_pointer_array and orte_pointer_array
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* - opal_value_array and orte_value_array
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*
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* Short version:
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*
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* They were split to accomodate a few differences between
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* requirements (e.g., "size" parameters being int vs. size_t). It
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* would be nice to re-merge them someday; there's a few technical
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* issues that would need to be solved, but nothing impossible. But
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* there's no pressing *need* to re-merge these, so they have fallen
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* somewhat low on the priority list of things to do.
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*
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* Longer version:
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*
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* Although these are generic functionality classes, the ORTE versions
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* split from the OMPI (soon to be OPAL) versions because of
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* restrictions imposed by the OMPI versions. Specifically, the OMPI
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* versions specifically limit size arguments to "int" (in multiple
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* different ways, e.g.: types of "size" parameters to functions,
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* maximum allowable values of size parameters, etc.). The ORTE
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* functions need most size parameters to be of type size_t, not int.
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* This is the most fundamental difference. In C++, we could have
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* templated these functions, but we unfortunately can't easily do
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* that in C (in hindsight, perhaps some preprocessor macros might
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* have been sufficient, but...).
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*
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* Another, more subtle, reason why these were split because of the
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* scary word "FORTRAN" that appears in some of the upper value limit
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* checks in the OMPI versions. That is, we always check for max size
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* against OMPI_FORTRAN_HANDLE_MAX. This value is simply min(INT_MAX,
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* max value of Fortran INTEGER) -- it's the minimum of the maximum
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* values of integers in C and Fortran. Usually, it's the same value
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* (2^32), but the macro is there to ensure that even if it's
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* different, we end up with a value that can be represented in both
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* languages.
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*
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* This is because the primary purpose of these classes is to serve as
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* an interface to the Fortran language bindings -- fortran handles
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* may be directly represented as indices into arrays or bitmaps.
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* Hence, the size has to be representable in both C and Fortran.
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*
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* Regardless, we need to check for *some* max value for the size of
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* these entites. Perhaps the name "FORTRAN" in the macro is
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* scary/misleading -- it can certainly be changed in the future if it
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* would be more clear. So it's ok to have a max -- but perhaps
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* changing the name would make it more palatable to both layers
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* (remebering that the max value is still going to be enormous --
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* usually 2^32; even if the size is of type size_t, you're going to
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* run out of memory long before you have 2^32 entries). Or perhaps
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* the max value can be parameterized to depend on whether the size
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* type is int or size_t -- I'm sure something can be worked out.
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*
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* As mentioned above, if these really are the only two differences
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* (int vs. size_t and the max sentinel value) -- and I'm pretty sure
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* that they are -- then these classes can be re-merged someday,
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* resulting in less code to maintain. This would be good for
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* long-term maintenance. However, it's kinda low on the priority
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* list. So it hasn't been done [yet]. If someone wants to do this,
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* please feel free! :-)
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*
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* Given the fact that we just had yet another round of discussions
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* about the splitting / re-merging of these classes (26 May 2005), it
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* was decided to put this big comment in the hopes of:
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*
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* - someday motivating someone to re-merge the classes
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* - prevent yet-another round of these discussions by documenting the
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* issues once and for all :-)
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*/
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#ifndef OMPI_BITMAP_H
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#define OMPI_BITMAP_H
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#include "ompi_config.h"
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#include <string.h>
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#include "include/types.h"
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#include "opal/class/opal_object.h"
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#if defined(c_plusplus) || defined(__cplusplus)
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extern "C" {
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#endif
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struct ompi_bitmap_t {
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opal_object_t super; /**< Subclass of opal_object_t */
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unsigned char *bitmap; /**< The actual bitmap array of characters */
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int array_size; /**< The actual array size that maintains the bitmap */
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int legal_numbits; /**< The number of bits which are legal (the
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actual bitmap may contain more bits, since
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it needs to be rounded to the nearest
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char */
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};
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typedef struct ompi_bitmap_t ompi_bitmap_t;
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OMPI_DECLSPEC OBJ_CLASS_DECLARATION(ompi_bitmap_t);
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/**
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* Initializes the bitmap and sets its size. This must be called
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* before the bitmap can be actually used
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*
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* @param bitmap The input bitmap (IN)
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* @param size The initial size of the bitmap in terms of bits (IN)
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* @return OMPI error code or success
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*
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*/
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OMPI_DECLSPEC int ompi_bitmap_init (ompi_bitmap_t *bm, int size);
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/**
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* Set a bit of the bitmap. If the bit asked for is beyond the current
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* size of the bitmap, then the bitmap is extended to accomodate the
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* bit
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*
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* @param bitmap The input bitmap (IN)
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* @param bit The bit which is to be set (IN)
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* @return OMPI error code or success
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*
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*/
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OMPI_DECLSPEC int ompi_bitmap_set_bit(ompi_bitmap_t *bm, int bit);
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/**
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* Clear/unset a bit of the bitmap. If the bit is beyond the current
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* size of the bitmap, an error is returned
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*
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* @param bitmap The input bitmap (IN)
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* @param bit The bit which is to be cleared (IN)
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* @return OMPI error code if the bit is out of range, else success
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*
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*/
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OMPI_DECLSPEC int ompi_bitmap_clear_bit(ompi_bitmap_t *bm, int bit);
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/**
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* Find out if a bit is set in the bitmap
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*
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* @param bitmap The input bitmap (IN)
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* @param bit The bit which is to be checked (IN)
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* @return OMPI error code if the bit is out of range
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* 1 if the bit is set
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* 0 if the bit is not set
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*
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*/
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OMPI_DECLSPEC int ompi_bitmap_is_set_bit(ompi_bitmap_t *bm, int bit);
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/**
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* Find the first clear bit in the bitmap and set it
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*
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* @param bitmap The input bitmap (IN)
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* @param position Position of the first clear bit (OUT)
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* @return err OMPI_SUCCESS on success
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*/
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OMPI_DECLSPEC int ompi_bitmap_find_and_set_first_unset_bit(ompi_bitmap_t *bm,
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int *position);
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/**
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* Clear all bits in the bitmap
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*
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* @param bitmap The input bitmap (IN)
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* @return OMPI error code if bm is NULL
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*
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*/
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OMPI_DECLSPEC int ompi_bitmap_clear_all_bits(ompi_bitmap_t *bm);
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/**
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* Set all bits in the bitmap
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* @param bitmap The input bitmap (IN)
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* @return OMPI error code if bm is NULL
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*
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*/
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OMPI_DECLSPEC int ompi_bitmap_set_all_bits(ompi_bitmap_t *bm);
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/**
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* Gives the current size (number of bits) in the bitmap. This is the
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* legal (accessible) number of bits
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*
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* @param bitmap The input bitmap (IN)
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* @return OMPI error code if bm is NULL
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*
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*/
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static inline int ompi_bitmap_size(ompi_bitmap_t *bm)
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{
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return (NULL == bm) ? 0 : bm->legal_numbits;
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}
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#if defined(c_plusplus) || defined(__cplusplus)
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}
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#endif
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#endif
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