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minix/external/bsd/atf/dist/atf-c/detail/list.c
Lionel Sambuc 11be35a165 Importing NetBSD "Kyua" test framework 
To do so, a few dependencies have been imported:

 * external/bsd/lutok
 * external/mit/lua
 * external/public-domain/sqlite
 * external/public-domain/xz

The Kyua framework is the new generation of ATF (Automated Test
Framework), it is composed of:

 * external/bsd/atf
 * external/bsd/kyua-atf-compat
 * external/bsd/kyua-cli
 * external/bsd/kyua-tester
 * tests

Kyua/ATF being written in C++, it depends on libstdc++ which is
provided by GCC. As this is not part of the sources, Kyua is only
compiled when the native GCC utils are installed.

To install Kyua do the following:

 * In a cross-build enviromnent, add the following to the build.sh
   commandline: -V MKBINUTILS=yes -V MKGCCCMDS=yes

WARNING:
  At this point the import is still experimental, and not supported
  on native builds (a.k.a make build).

Change-Id: I26aee23c5bbd2d64adcb7c1beb98fe0d479d7ada
2013-07-23 20:43:41 +02:00

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/*
* Automated Testing Framework (atf)
*
* Copyright (c) 2008 The NetBSD Foundation, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND
* CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
* GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
* IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <stdlib.h>
#include <string.h>
#include "atf-c/error.h"
#include "atf-c/utils.h"
#include "list.h"
#include "sanity.h"
/* ---------------------------------------------------------------------
* Auxiliary functions.
* --------------------------------------------------------------------- */
struct list_entry {
struct list_entry *m_prev;
struct list_entry *m_next;
void *m_object;
bool m_managed;
};
static
atf_list_citer_t
entry_to_citer(const atf_list_t *l, const struct list_entry *le)
{
atf_list_citer_t iter;
iter.m_list = l;
iter.m_entry = le;
return iter;
}
static
atf_list_iter_t
entry_to_iter(atf_list_t *l, struct list_entry *le)
{
atf_list_iter_t iter;
iter.m_list = l;
iter.m_entry = le;
return iter;
}
static
struct list_entry *
new_entry(void *object, bool managed)
{
struct list_entry *le;
le = (struct list_entry *)malloc(sizeof(*le));
if (le != NULL) {
le->m_prev = le->m_next = NULL;
le->m_object = object;
le->m_managed = managed;
} else
free(object);
return le;
}
static
void
delete_entry(struct list_entry *le)
{
if (le->m_managed)
free(le->m_object);
free(le);
}
static
struct list_entry *
new_entry_and_link(void *object, bool managed, struct list_entry *prev,
struct list_entry *next)
{
struct list_entry *le;
le = new_entry(object, managed);
if (le != NULL) {
le->m_prev = prev;
le->m_next = next;
prev->m_next = le;
next->m_prev = le;
}
return le;
}
/* ---------------------------------------------------------------------
* The "atf_list_citer" type.
* --------------------------------------------------------------------- */
/*
* Getters.
*/
const void *
atf_list_citer_data(const atf_list_citer_t citer)
{
const struct list_entry *le = citer.m_entry;
PRE(le != NULL);
return le->m_object;
}
atf_list_citer_t
atf_list_citer_next(const atf_list_citer_t citer)
{
const struct list_entry *le = citer.m_entry;
atf_list_citer_t newciter;
PRE(le != NULL);
newciter = citer;
newciter.m_entry = le->m_next;
return newciter;
}
bool
atf_equal_list_citer_list_citer(const atf_list_citer_t i1,
const atf_list_citer_t i2)
{
return i1.m_list == i2.m_list && i1.m_entry == i2.m_entry;
}
/* ---------------------------------------------------------------------
* The "atf_list_iter" type.
* --------------------------------------------------------------------- */
/*
* Getters.
*/
void *
atf_list_iter_data(const atf_list_iter_t iter)
{
const struct list_entry *le = iter.m_entry;
PRE(le != NULL);
return le->m_object;
}
atf_list_iter_t
atf_list_iter_next(const atf_list_iter_t iter)
{
const struct list_entry *le = iter.m_entry;
atf_list_iter_t newiter;
PRE(le != NULL);
newiter = iter;
newiter.m_entry = le->m_next;
return newiter;
}
bool
atf_equal_list_iter_list_iter(const atf_list_iter_t i1,
const atf_list_iter_t i2)
{
return i1.m_list == i2.m_list && i1.m_entry == i2.m_entry;
}
/* ---------------------------------------------------------------------
* The "atf_list" type.
* --------------------------------------------------------------------- */
/*
* Constructors and destructors.
*/
atf_error_t
atf_list_init(atf_list_t *l)
{
struct list_entry *lebeg, *leend;
lebeg = new_entry(NULL, false);
if (lebeg == NULL) {
return atf_no_memory_error();
}
leend = new_entry(NULL, false);
if (leend == NULL) {
free(lebeg);
return atf_no_memory_error();
}
lebeg->m_next = leend;
lebeg->m_prev = NULL;
leend->m_next = NULL;
leend->m_prev = lebeg;
l->m_size = 0;
l->m_begin = lebeg;
l->m_end = leend;
return atf_no_error();
}
void
atf_list_fini(atf_list_t *l)
{
struct list_entry *le;
size_t freed;
le = (struct list_entry *)l->m_begin;
freed = 0;
while (le != NULL) {
struct list_entry *lenext;
lenext = le->m_next;
delete_entry(le);
le = lenext;
freed++;
}
INV(freed == l->m_size + 2);
}
/*
* Getters.
*/
atf_list_iter_t
atf_list_begin(atf_list_t *l)
{
struct list_entry *le = l->m_begin;
return entry_to_iter(l, le->m_next);
}
atf_list_citer_t
atf_list_begin_c(const atf_list_t *l)
{
const struct list_entry *le = l->m_begin;
return entry_to_citer(l, le->m_next);
}
atf_list_iter_t
atf_list_end(atf_list_t *l)
{
return entry_to_iter(l, l->m_end);
}
atf_list_citer_t
atf_list_end_c(const atf_list_t *l)
{
return entry_to_citer(l, l->m_end);
}
void *
atf_list_index(atf_list_t *list, const size_t idx)
{
atf_list_iter_t iter;
PRE(idx < atf_list_size(list));
iter = atf_list_begin(list);
{
size_t pos = 0;
while (pos < idx &&
!atf_equal_list_iter_list_iter((iter), atf_list_end(list))) {
iter = atf_list_iter_next(iter);
pos++;
}
}
return atf_list_iter_data(iter);
}
const void *
atf_list_index_c(const atf_list_t *list, const size_t idx)
{
atf_list_citer_t iter;
PRE(idx < atf_list_size(list));
iter = atf_list_begin_c(list);
{
size_t pos = 0;
while (pos < idx &&
!atf_equal_list_citer_list_citer((iter),
atf_list_end_c(list))) {
iter = atf_list_citer_next(iter);
pos++;
}
}
return atf_list_citer_data(iter);
}
size_t
atf_list_size(const atf_list_t *l)
{
return l->m_size;
}
char **
atf_list_to_charpp(const atf_list_t *l)
{
char **array;
atf_list_citer_t iter;
size_t i;
array = malloc(sizeof(char *) * (atf_list_size(l) + 1));
if (array == NULL)
goto out;
i = 0;
atf_list_for_each_c(iter, l) {
array[i] = strdup((const char *)atf_list_citer_data(iter));
if (array[i] == NULL) {
atf_utils_free_charpp(array);
array = NULL;
goto out;
}
i++;
}
array[i] = NULL;
out:
return array;
}
/*
* Modifiers.
*/
atf_error_t
atf_list_append(atf_list_t *l, void *data, bool managed)
{
struct list_entry *le, *next, *prev;
atf_error_t err;
next = (struct list_entry *)l->m_end;
prev = next->m_prev;
le = new_entry_and_link(data, managed, prev, next);
if (le == NULL)
err = atf_no_memory_error();
else {
l->m_size++;
err = atf_no_error();
}
return err;
}
void
atf_list_append_list(atf_list_t *l, atf_list_t *src)
{
struct list_entry *e1, *e2, *ghost1, *ghost2;
ghost1 = (struct list_entry *)l->m_end;
ghost2 = (struct list_entry *)src->m_begin;
e1 = ghost1->m_prev;
e2 = ghost2->m_next;
delete_entry(ghost1);
delete_entry(ghost2);
e1->m_next = e2;
e2->m_prev = e1;
l->m_end = src->m_end;
l->m_size += src->m_size;
}
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