/* -*- Mode: C; c-basic-offset:4 ; -*- */ /* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2007 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. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #include #include #include #include "opal/constants.h" #include "opal/class/opal_pointer_array.h" #include "opal/util/output.h" enum { TABLE_INIT = 1, TABLE_GROW = 2 }; static void opal_pointer_array_construct(opal_pointer_array_t *); static void opal_pointer_array_destruct(opal_pointer_array_t *); static bool grow_table(opal_pointer_array_t *table, int soft, int hard); OBJ_CLASS_INSTANCE(opal_pointer_array_t, opal_object_t, opal_pointer_array_construct, opal_pointer_array_destruct); /* * opal_pointer_array constructor */ static void opal_pointer_array_construct(opal_pointer_array_t *array) { OBJ_CONSTRUCT(&array->lock, opal_mutex_t); array->lowest_free = 0; array->number_free = 0; array->size = 0; array->max_size = INT_MAX; array->block_size = 0; array->addr = 0; } /* * opal_pointer_array destructor */ static void opal_pointer_array_destruct(opal_pointer_array_t *array) { /* free table */ if( NULL != array->addr) { free(array->addr); } OBJ_DESTRUCT(&array->lock); } /** * initialize an array object */ int opal_pointer_array_init(opal_pointer_array_t* array, int initial_allocation, int max_size, int block_size) { size_t num_bytes; /* check for errors */ if (NULL == array || max_size < block_size) { return OPAL_ERR_BAD_PARAM; } array->max_size = max_size; array->block_size = block_size; num_bytes = (0 < initial_allocation ? initial_allocation : block_size); array->number_free = num_bytes; array->size = num_bytes; num_bytes *= sizeof(void*); /* Allocate and set the array to NULL */ array->addr = (void **)calloc(num_bytes, 1); if (NULL == array->addr) { /* out of memory */ return OPAL_ERR_OUT_OF_RESOURCE; } return OPAL_SUCCESS; } /** * add a pointer to dynamic pointer table * * @param table Pointer to opal_pointer_array_t object (IN) * @param ptr Pointer to be added to table (IN) * * @return Array index where ptr is inserted or OPAL_ERROR if it fails */ int opal_pointer_array_add(opal_pointer_array_t *table, void *ptr) { int i, index; OPAL_THREAD_LOCK(&(table->lock)); if (table->number_free == 0) { /* need to grow table */ if (!grow_table(table, (NULL == table->addr ? TABLE_INIT : table->size * TABLE_GROW), OMPI_FORTRAN_HANDLE_MAX)) { OPAL_THREAD_UNLOCK(&(table->lock)); return OPAL_ERR_OUT_OF_RESOURCE; } } assert( (table->addr != NULL) && (table->size > 0) ); assert( (table->lowest_free >= 0) && (table->lowest_free < table->size) ); assert( (table->number_free > 0) && (table->number_free <= table->size) ); /* * add pointer to table, and return the index */ index = table->lowest_free; assert(table->addr[index] == NULL); table->addr[index] = ptr; table->number_free--; if (table->number_free > 0) { for (i = table->lowest_free + 1; i < table->size; i++) { if (table->addr[i] == NULL) { table->lowest_free = i; break; } } } else { table->lowest_free = table->size; } OPAL_THREAD_UNLOCK(&(table->lock)); return index; } /** * Set the value of the dynamic array at a specified location. * * * @param table Pointer to opal_pointer_array_t object (IN) * @param ptr Pointer to be added to table (IN) * * @return Error code * * Assumption: NULL element is free element. */ int opal_pointer_array_set_item(opal_pointer_array_t *table, int index, void * value) { assert(table != NULL); /* expand table if required to set a specific index */ OPAL_THREAD_LOCK(&(table->lock)); if (table->size <= index) { if (!grow_table(table, ((index / TABLE_GROW) + 1) * TABLE_GROW, index)) { OPAL_THREAD_UNLOCK(&(table->lock)); return OPAL_ERROR; } } /* mark element as free, if NULL element */ if( NULL == value ) { if (index < table->lowest_free) { table->lowest_free = index; } if( NULL != table->addr[index] ) { table->number_free++; } } else { if (NULL == table->addr[index]) { table->number_free--; } /* Reset lowest_free if required */ if ( index == table->lowest_free ) { int i; table->lowest_free = table->size; for ( i=index + 1; isize; i++) { if ( NULL == table->addr[i] ){ table->lowest_free = i; break; } } } } table->addr[index] = value; #if 0 opal_output(0,"opal_pointer_array_set_item: OUT: " " table %p (size %ld, lowest free %ld, number free %ld)" " addr[%d] = %p\n", table, table->size, table->lowest_free, table->number_free, index, table->addr[index]); #endif OPAL_THREAD_UNLOCK(&(table->lock)); return OPAL_SUCCESS; } /** * Test whether a certain element is already in use. If not yet * in use, reserve it. * * @param array Pointer to array (IN) * @param index Index of element to be tested (IN) * @param value New value to be set at element index (IN) * * @return true/false True if element could be reserved * False if element could not be reserved (e.g.in use). * * In contrary to array_set, this function does not allow to overwrite * a value, unless the previous value is NULL ( equiv. to free ). */ bool opal_pointer_array_test_and_set_item (opal_pointer_array_t *table, int index, void *value) { assert(table != NULL); assert(index >= 0); #if 0 opal_output(0,"opal_pointer_array_test_and_set_item: IN: " " table %p (size %ld, lowest free %ld, number free %ld)" " addr[%d] = %p\n", table, table->size, table->lowest_free, table->number_free, index, table->addr[index]); #endif /* expand table if required to set a specific index */ OPAL_THREAD_LOCK(&(table->lock)); if ( index < table->size && table->addr[index] != NULL ) { /* This element is already in use */ OPAL_THREAD_UNLOCK(&(table->lock)); return false; } /* Do we need to grow the table? */ if (table->size <= index) { if (!grow_table(table, (((index / TABLE_GROW) + 1) * TABLE_GROW), index)) { OPAL_THREAD_UNLOCK(&(table->lock)); return false; } } /* * allow a specific index to be changed. */ table->addr[index] = value; table->number_free--; /* Reset lowest_free if required */ if ( index == table->lowest_free ) { int i; table->lowest_free = table->size; for ( i=index; isize; i++) { if ( NULL == table->addr[i] ){ table->lowest_free = i; break; } } } #if 0 opal_output(0,"opal_pointer_array_test_and_set_item: OUT: " " table %p (size %ld, lowest free %ld, number free %ld)" " addr[%d] = %p\n", table, table->size, table->lowest_free, table->number_free, index, table->addr[index]); #endif OPAL_THREAD_UNLOCK(&(table->lock)); return true; } int opal_pointer_array_set_size(opal_pointer_array_t *array, int new_size) { OPAL_THREAD_LOCK(&(array->lock)); if(new_size > array->size) { if (!grow_table(array, new_size, new_size)) { OPAL_THREAD_UNLOCK(&(array->lock)); return OPAL_ERROR; } } OPAL_THREAD_UNLOCK(&(array->lock)); return OPAL_SUCCESS; } static bool grow_table(opal_pointer_array_t *table, int soft, int hard) { int new_size; int i, new_size_int; void *p; /* new_size = ((table->size + num_needed + table->block_size - 1) / table->block_size) * table->block_size; */ new_size = soft; if( soft > table->max_size ) { if( hard > table->max_size ) { return false; } new_size = hard; } if( new_size >= table->max_size ) { return false; } p = (void **) realloc(table->addr, new_size * sizeof(void *)); if (p == NULL) { return false; } /* We've already established (above) that the arithmetic below will be less than OMPI_FORTRAN_HANDLE_MAX */ new_size_int = (int) new_size; table->number_free += new_size_int - table->size; table->addr = (void**)p; for (i = table->size; i < new_size_int; ++i) { table->addr[i] = NULL; } table->size = new_size_int; return true; }