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openmpi/opal/class/opal_graph.h
Ralph Castain f966d9f972 Fix visibility issues with opal_graph functions.
Fix the carto test so it can compile - need to update input file so it can run

This commit was SVN r21403.
2009-06-09 15:02:57 +00:00

356 строки
11 KiB
C

/*
* Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2004-2006 The University of Tennessee and The University
* of Tennessee Research Foundation. All rights
* reserved.
* Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
* University of Stuttgart. All rights reserved.
* Copyright (c) 2004-2005 The Regents of the University of California.
* All rights reserved.
* Copyright (c) 2007 Voltaire All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
/**
* @file
* The opal_graph interface is used to provide a generic graph infrastructure
* to Open-MPI. The graph is represented as an adjacentcy list.
* The graph is a list of vertices. The graph is a weighted directional graph.
* Each vertex contains a pointer to a vertex data.
* This pointer can point to the structure that this vertex belongs to.
*/
#ifndef OPAL_GRAPH_H
#define OPAL_GRAPH_H
#include "opal_config.h"
#include <stdio.h>
#include <stdlib.h>
#include "opal/class/opal_object.h"
#include "opal/class/opal_list.h"
#include "opal/class/opal_pointer_array.h"
#include "opal/class/opal_value_array.h"
BEGIN_C_DECLS
/* When two vertices are not connected, the distance between them is infinite. */
#define DISTANCE_INFINITY 0x7fffffff
/* A class for vertex */
OPAL_DECLSPEC OBJ_CLASS_DECLARATION(opal_graph_vertex_t);
/* A class for an edge (a connection between two verices) */
OPAL_DECLSPEC OBJ_CLASS_DECLARATION(opal_graph_edge_t);
/* A class for an adjacency list */
OPAL_DECLSPEC OBJ_CLASS_DECLARATION(opal_adjacency_list_t);
/* A class for graph */
OPAL_DECLSPEC OBJ_CLASS_DECLARATION(opal_graph_t);
/**
* Function pointer for coping a vertex data from one vertex to
* another
*
* @param dst The destination pointer of vertex_data
* @param src The source pointer of the vertex_data
*
*
*/
typedef void (*opal_graph_copy_vertex_data)(void **dst, void *src);
/**
* free vertex data.
* @param vertex_data
*
* The vertex data can point to the structure that this vertex
* belongs to.
*/
typedef void (*opal_graph_free_vertex_data)(void *vertex_data);
/**
* Allocate vertex data.
*/
typedef void *(*opal_graph_alloc_vertex_data)(void);
/**
* Compare two vertices data.
*
*@param vertex_data1
*@param vertex_data2
*
*@return int The comparition results. 1- vertex_data1 is bigger
* then vertex_data2, 0- vertex_data1 is equal to
* vertex_data2 and -1- vertex_data1 is smaller the
* vertex_data2.
*/
typedef int (*opal_graph_compare_vertex_data)(void *vertex_data1, void *vertex_data2);
/**
* print a vertex data.
*
* @param vertex_data
*/
typedef char *(*opal_graph_print_vertex)(void *vertex_data);
/**
* A vertex class.
*/
struct opal_graph_vertex_t {
opal_list_item_t super; /* A pointer to a vertex parent */
void *in_graph; /* A pointer to the graph that this vertex belongs to */
void *in_adj_list; /* A pointer to the adjacency that this vertex belongs to */
void *vertex_data;/* A pointer to some data. this pointer can point to the struct the this*/
/* vertex belongs to*/
struct opal_graph_vertex_t *sibling;/* A pointer to a sibling vertex. */
/* if this vertex was copied this pointer will point to the source vertex */
/* This pointer is for internal uses. */
opal_graph_copy_vertex_data copy_vertex_data; /* A function to copy vertex data */
opal_graph_free_vertex_data free_vertex_data; /* A function to print vertex data */
opal_graph_alloc_vertex_data alloc_vertex_data;/* A function to allocate vertex data */
opal_graph_compare_vertex_data compare_vertex; /* A function to compare between two vertices data */
opal_graph_print_vertex print_vertex; /* A function to print vertex data */
};
/**
* A type for vertex.
*/
typedef struct opal_graph_vertex_t opal_graph_vertex_t;
/**
* An opal_adjacency_list_t class
*/
struct opal_adjacency_list_t {
opal_list_item_t super; /* A pointer to vertex parent */
opal_graph_vertex_t *vertex; /* The adjacency_list is for adjacent of this vertex */
opal_list_t *edges; /* An edge list for all the adjacent and their weights */
};
/**
* A type for opal_adjacency_list_t
*/
typedef struct opal_adjacency_list_t opal_adjacency_list_t;
/**
* An edge class. (connection between two vertices.) Since the
* graph is a directional graph, each vertex contains a start
* and an end pointers for the start vertex and the end vertex
* of this edge. Since the graph is a weighted graph, the edges
* contains a weight field.
*/
struct opal_graph_edge_t {
opal_list_item_t super; /* A pointer to the edge parent */
opal_graph_vertex_t *start; /* The start vertex. */
opal_graph_vertex_t *end; /* The end vertex */
uint32_t weight; /* The weight of this edge */
opal_adjacency_list_t *in_adj_list; /* The adjacency list in witch this edge in.*/
/* This adjacency list contains the start vertex of this edge*/
/* and its for internal uses */
};
/**
* A type for an edge
*/
typedef struct opal_graph_edge_t opal_graph_edge_t;
/**
* A graph class.
*/
struct opal_graph_t {
opal_object_t super;
opal_list_t *adjacency_list;
int number_of_edges;
int number_of_vertices;
};
/**
* A type for graph class
*/
typedef struct opal_graph_t opal_graph_t;
/**
* This structure represent the distance (weight) of a vertex
* from some point in the graph.
*/
struct vertex_distance_from_t {
opal_graph_vertex_t *vertex;
uint32_t weight;
};
/**
* A type for vertex distance.
*/
typedef struct vertex_distance_from_t vertex_distance_from_t;
/**
* This graph API adds a vertex to graph. The most common use
* for this API is while building a graph.
*
* @param graph The graph that the vertex will be added to.
* @param vertex The vertex we want to add.
*/
OPAL_DECLSPEC void opal_graph_add_vertex(opal_graph_t *graph, opal_graph_vertex_t *vertex);
/**
* This graph API remove a vertex from graph. The most common
* use for this API is while distracting a graph or while
* removing relevant vertices from a graph.
*
* @param graph The graph that the vertex will be remove from.
* @param vertex The vertex we want to remove.
*/
OPAL_DECLSPEC void opal_graph_remove_vertex(opal_graph_t *graph, opal_graph_vertex_t *vertex);
/**
* This graph API adds an edge (connection between two
* vertices) to a graph. The most common use
* for this API is while building a graph.
*
* @param graph The graph that this edge will be added to.
* @param edge The edge that we want to add.
*
* @return int Success or error. this API can return an error if
* one of the vertices is not in the graph.
*/
OPAL_DECLSPEC int opal_graph_add_edge(opal_graph_t *graph, opal_graph_edge_t *edge);
/**
* This graph API removes an edge (a connection between two
* vertices) from the graph. The most common use of this API is
* while destructing a graph or while removing vertices from a
* graph. while removing vertices from a graph, we should also
* remove the connections from and to the vertices that we are
* removing.
*
* @param graph The graph that this edge will be remove from.
* @param edge the edge that we want to remove.
*/
OPAL_DECLSPEC void opal_graph_remove_edge (opal_graph_t *graph, opal_graph_edge_t *edge);
/**
* This graph API tell us if two vertices are adjacent
*
* @param graph The graph that the vertices belongs to.
* @param vertex1 first vertex.
* @param vertex2 second vertex.
*
* @return uint32_t the weight of the connection between the two
* vertices or infinity if the vertices are not
* connected.
*/
OPAL_DECLSPEC uint32_t opal_graph_adjacent(opal_graph_t *graph, opal_graph_vertex_t *vertex1, opal_graph_vertex_t *vertex2);
/**
* This Graph API returns the order of the graph (number of
* vertices)
*
* @param graph
*
* @return int
*/
OPAL_DECLSPEC int opal_graph_get_order(opal_graph_t *graph);
/**
* This Graph API returns the size of the graph (number of
* edges)
*
* @param graph
*
* @return int
*/
OPAL_DECLSPEC int opal_graph_get_size(opal_graph_t *graph);
/**
* This graph API finds a vertex in the graph according the
* vertex data.
* @param graph the graph we searching in.
* @param vertex_data the vertex data we are searching according
* to.
*
* @return opal_graph_vertex_t* The vertex founded or NULL.
*/
OPAL_DECLSPEC opal_graph_vertex_t *opal_graph_find_vertex(opal_graph_t *graph, void *vertex_data);
/**
* This graph API returns an array of pointers of all the
* vertices in the graph.
*
*
* @param graph
* @param vertices_list an array of pointers of all the
* vertices in the graph vertices.
*
* @return int returning the graph order (the
* number of vertices in the returned array)
*/
OPAL_DECLSPEC int opal_graph_get_graph_vertices(opal_graph_t *graph, opal_pointer_array_t *vertices_list);
/**
* This graph API returns all the adjacent of a vertex and the
* distance (weight) of those adjacent and the vertex.
*
* @param graph
* @param vertex The reference vertex
* @param adjacent An allocated pointer array of vertices and
* their distance from the reference vertex.
* Note that this pointer should be free after
* usage by the user
*
* @return int the number of adjacent in the list.
*/
OPAL_DECLSPEC int opal_graph_get_adjacent_vertices(opal_graph_t *graph, opal_graph_vertex_t *vertex, opal_value_array_t *adjacent);
/**
* This graph API duplicates a graph. Note that this API does
* not copy the graph but builds a new graph while coping just
* the vertices data.
*
* @param dest The new created graph.
* @param src The graph we want to duplicate.
*/
OPAL_DECLSPEC void opal_graph_duplicate(opal_graph_t **dest, opal_graph_t *src);
/**
* This graph API finds the shortest path between two vertices.
*
* @param graph
* @param vertex1 The start vertex.
* @param vertex2 The end vertex.
*
* @return uint32_t the distance between the two vertices.
*/
OPAL_DECLSPEC uint32_t opal_graph_spf(opal_graph_t *graph, opal_graph_vertex_t *vertex1, opal_graph_vertex_t *vertex2);
/**
* This graph API returns the distance (weight) from a reference
* vertex to all other vertices in the graph using the Dijkstra
* algorithm
*
* @param graph
* @param vertex The reference vertex.
* @param distance_array An array of vertices and
* their distance from the reference vertex.
*
* @return uint32_t the size of the distance array
*/
OPAL_DECLSPEC uint32_t opal_graph_dijkstra(opal_graph_t *graph, opal_graph_vertex_t *vertex, opal_value_array_t *distance_array);
/**
* This graph API prints a graph - mostly for debug uses.
* @param graph
*/
OPAL_DECLSPEC void opal_graph_print(opal_graph_t *graph);
END_C_DECLS
#endif /* OPAL_GRAPH_H */