/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include struct axutil_linked_list { /**The number of elements in this list. */ int size; /** * The first element in the list. */ entry_t *first; /** * The last element in the list. */ entry_t *last; /** * A count of the number of structural modifications that have been made to * the list (that is, insertions and removals). Structural modifications * are ones which change the list size or affect how iterations would * behave. This field is available for use by Iterator and ListIterator, * in order to set an error code in response * to the next op on the iterator. This fail-fast behavior * saves the user from many subtle bugs otherwise possible from concurrent * modification during iteration. *

* * To make lists fail-fast, increment this field by just 1 in the * add(int, Object) and remove(int) methods. * Otherwise, this field may be ignored. */ int mod_count; }; AXIS2_EXTERN axutil_linked_list_t *AXIS2_CALL axutil_linked_list_create( const axutil_env_t *env) { axutil_linked_list_t *linked_list = NULL; AXIS2_ENV_CHECK(env, NULL); linked_list = AXIS2_MALLOC(env->allocator, sizeof(axutil_linked_list_t)); if(!linked_list) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Out of memory"); return NULL; } linked_list->size = 0; linked_list->mod_count = 0; linked_list->first = NULL; linked_list->last = NULL; return linked_list; } static entry_t * axutil_linked_list_create_entry( const axutil_env_t *env, void *data) { entry_t *entry = (entry_t *)AXIS2_MALLOC(env->allocator, sizeof(entry_t)); if(!entry) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Out of memory"); return NULL; } entry->data = data; entry->previous = NULL; entry->next = NULL; return entry; } static axis2_status_t axutil_linked_list_add_last_entry( axutil_linked_list_t *linked_list, const axutil_env_t *env, entry_t * e) { AXIS2_PARAM_CHECK(env->error, e, AXIS2_FAILURE); linked_list->mod_count++; if(linked_list->size == 0) { linked_list->first = linked_list->last = e; } else { e->previous = linked_list->last; linked_list->last->next = e; linked_list->last = e; } linked_list->size++; return AXIS2_SUCCESS; } AXIS2_EXTERN void AXIS2_CALL axutil_linked_list_free( axutil_linked_list_t *linked_list, const axutil_env_t *env) { entry_t *current = NULL, *next = NULL; current = linked_list->first; while(current) { next = current->next; AXIS2_FREE(env->allocator, current); current = next; } AXIS2_FREE(env->allocator, linked_list); linked_list = NULL; } AXIS2_EXTERN entry_t *AXIS2_CALL axutil_linked_list_get_entry( axutil_linked_list_t *linked_list, const axutil_env_t *env, int n) { entry_t *e = NULL; if(n < linked_list->size / 2) { e = linked_list->first; /* n less than size/2, iterate from start */ while(n > 0) { e = e->next; n = n - 1; } } else { e = linked_list->last; /* n greater than size/2, iterate from end */ while((n = n + 1) < linked_list->size) { e = e->previous; } } return e; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axutil_linked_list_remove_entry( axutil_linked_list_t *linked_list, const axutil_env_t *env, entry_t *e) { AXIS2_PARAM_CHECK(env->error, e, AXIS2_FAILURE); linked_list->mod_count++; linked_list->size--; if(linked_list->size == 0) { linked_list->first = linked_list->last = NULL; } else { if(e == linked_list->first) { linked_list->first = e->next; e->next->previous = NULL; } else if(e == linked_list->last) { linked_list->last = e->previous; e->previous->next = NULL; } else { e->next->previous = e->previous; e->previous->next = e->next; } } return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_bool_t AXIS2_CALL axutil_linked_list_check_bounds_inclusive( axutil_linked_list_t *linked_list, const axutil_env_t *env, int index) { if(index < 0 || index > linked_list->size) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_INDEX_OUT_OF_BOUNDS, AXIS2_FAILURE); return AXIS2_FALSE; } return AXIS2_TRUE; } AXIS2_EXTERN axis2_bool_t AXIS2_CALL axutil_linked_list_check_bounds_exclusive( axutil_linked_list_t *linked_list, const axutil_env_t *env, int index) { if(index < 0 || index >= linked_list->size) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_INDEX_OUT_OF_BOUNDS, AXIS2_FAILURE); return AXIS2_FALSE; } return AXIS2_TRUE; } AXIS2_EXTERN void *AXIS2_CALL axutil_linked_list_get_first( axutil_linked_list_t *linked_list, const axutil_env_t *env) { if(linked_list->size == 0) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_SUCH_ELEMENT, AXIS2_FAILURE); return NULL; } return linked_list->first->data; } AXIS2_EXTERN void *AXIS2_CALL axutil_linked_list_get_last( axutil_linked_list_t *linked_list, const axutil_env_t *env) { if(linked_list->size == 0) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_SUCH_ELEMENT, AXIS2_FAILURE); return NULL; } return linked_list->last->data; } AXIS2_EXTERN void *AXIS2_CALL axutil_linked_list_remove_first( axutil_linked_list_t *linked_list, const axutil_env_t *env) { void *r; if(linked_list->size == 0) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_SUCH_ELEMENT, AXIS2_FAILURE); return NULL; } linked_list->mod_count++; linked_list->size--; r = linked_list->first->data; if(linked_list->first->next) { linked_list->first->next->previous = NULL; } else { linked_list->last = NULL; } linked_list->first = linked_list->first->next; return r; } AXIS2_EXTERN void *AXIS2_CALL axutil_linked_list_remove_last( axutil_linked_list_t *linked_list, const axutil_env_t *env) { void *r = NULL; if(linked_list->size == 0) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_SUCH_ELEMENT, AXIS2_FAILURE); return NULL; } linked_list->mod_count++; linked_list->size--; r = linked_list->last->data; if(linked_list->last->previous) { linked_list->last->previous->next = NULL; } else { linked_list->first = NULL; } linked_list->last = linked_list->last->previous; return r; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axutil_linked_list_add_first( axutil_linked_list_t *linked_list, const axutil_env_t *env, void *o) { entry_t *e; AXIS2_PARAM_CHECK(env->error, o, AXIS2_FAILURE); e = axutil_linked_list_create_entry(env, o); linked_list->mod_count++; if(linked_list->size == 0) { linked_list->first = linked_list->last = e; } else { e->next = linked_list->first; linked_list->first->previous = e; linked_list->first = e; } linked_list->size++; return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axutil_linked_list_add_last( axutil_linked_list_t *linked_list, const axutil_env_t *env, void *o) { entry_t *e; AXIS2_PARAM_CHECK(env->error, o, AXIS2_FAILURE); e = axutil_linked_list_create_entry(env, o); return axutil_linked_list_add_last_entry(linked_list, env, e); } AXIS2_EXTERN axis2_bool_t AXIS2_CALL axutil_linked_list_contains( axutil_linked_list_t *linked_list, const axutil_env_t *env, void *o) { entry_t *e; AXIS2_PARAM_CHECK(env->error, o, AXIS2_FALSE); e = linked_list->first; while(e) { if(o == e->data) return AXIS2_TRUE; e = e->next; } return AXIS2_FALSE; } AXIS2_EXTERN int AXIS2_CALL axutil_linked_list_size( axutil_linked_list_t *linked_list, const axutil_env_t *env) { return linked_list->size; } AXIS2_EXTERN axis2_bool_t AXIS2_CALL axutil_linked_list_add( axutil_linked_list_t *linked_list, const axutil_env_t *env, void *o) { entry_t *e; AXIS2_PARAM_CHECK(env->error, o, AXIS2_FALSE); e = axutil_linked_list_create_entry(env, o); return axutil_linked_list_add_last_entry(linked_list, env, e); } AXIS2_EXTERN axis2_bool_t AXIS2_CALL axutil_linked_list_remove( axutil_linked_list_t *linked_list, const axutil_env_t *env, void *o) { entry_t *e; AXIS2_PARAM_CHECK(env->error, o, AXIS2_FALSE); e = linked_list->first; while(e) { if(o == e->data) { return axutil_linked_list_remove_entry(linked_list, env, e); } e = e->next; } return AXIS2_FALSE; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axutil_linked_list_clear( axutil_linked_list_t *linked_list, const axutil_env_t *env) { if(linked_list->size > 0) { linked_list->mod_count++; linked_list->first = NULL; linked_list->last = NULL; linked_list->size = 0; } return AXIS2_SUCCESS; } AXIS2_EXTERN void *AXIS2_CALL axutil_linked_list_get( axutil_linked_list_t *linked_list, const axutil_env_t *env, int index) { axutil_linked_list_check_bounds_exclusive(linked_list, env, index); return axutil_linked_list_get_entry(linked_list, env, index)->data; } AXIS2_EXTERN void *AXIS2_CALL axutil_linked_list_set( axutil_linked_list_t *linked_list, const axutil_env_t *env, int index, void *o) { entry_t *e; void *old; AXIS2_PARAM_CHECK(env->error, o, NULL); axutil_linked_list_check_bounds_exclusive(linked_list, env, index); e = axutil_linked_list_get_entry(linked_list, env, index); old = e->data; e->data = o; return old; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axutil_linked_list_add_at_index( axutil_linked_list_t *linked_list, const axutil_env_t *env, int index, void *o) { entry_t *after = NULL; entry_t *e; AXIS2_PARAM_CHECK(env->error, o, AXIS2_FAILURE); axutil_linked_list_check_bounds_inclusive(linked_list, env, index); e = axutil_linked_list_create_entry(env, o); if(index < linked_list->size) { linked_list->mod_count++; after = axutil_linked_list_get_entry(linked_list, env, index); e->next = after; e->previous = after->previous; if(after->previous == NULL) linked_list->first = e; else after->previous->next = e; after->previous = e; linked_list->size++; } else { axutil_linked_list_add_last_entry(linked_list, env, e); } return AXIS2_SUCCESS; } AXIS2_EXTERN void *AXIS2_CALL axutil_linked_list_remove_at_index( axutil_linked_list_t *linked_list, const axutil_env_t *env, int index) { entry_t *e; axutil_linked_list_check_bounds_exclusive(linked_list, env, index); e = axutil_linked_list_get_entry(linked_list, env, index); axutil_linked_list_remove_entry(linked_list, env, e); return e->data; } AXIS2_EXTERN int AXIS2_CALL axutil_linked_list_index_of( axutil_linked_list_t *linked_list, const axutil_env_t *env, void *o) { int index = 0; entry_t *e; AXIS2_PARAM_CHECK(env->error, o, AXIS2_FAILURE); e = linked_list->first; while(e) { if(o == e->data) return index; index++; e = e->next; } return -1; } AXIS2_EXTERN int AXIS2_CALL axutil_linked_list_last_index_of( axutil_linked_list_t *linked_list, const axutil_env_t *env, void *o) { int index; entry_t *e; AXIS2_PARAM_CHECK(env->error, o, AXIS2_FAILURE); index = linked_list->size - 1; e = linked_list->last; while(e) { if(o == e->data) return index; index--; e = e->previous; } return -1; } AXIS2_EXTERN void **AXIS2_CALL axutil_linked_list_to_array( axutil_linked_list_t *linked_list, const axutil_env_t *env) { int i = 0; void **array; entry_t *e; array = (void **)AXIS2_MALLOC(env->allocator, linked_list->size * sizeof(void *)); e = linked_list->first; for(i = 0; i < linked_list->size; i++) { array[i] = e->data; e = e->next; } return array; }