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Merge branch 'feature-refobject-list' into ph3-libigloo

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This commit is contained in:
Philipp Schafft 2018-11-08 13:53:00 +00:00
commit 30632c2cc8
7 changed files with 864 additions and 2 deletions
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6
Makefile.am
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@ -20,12 +20,14 @@ pkginclude_HEADERS = \
include/igloo/ro.h \
include/igloo/types.h \
include/igloo/typedef.h \
include/igloo/buffer.h
include/igloo/buffer.h \
include/igloo/list.h
libigloo_la_SOURCES = \
src/libigloo.c \
src/ro.c \
src/buffer.c
src/buffer.c \
src/list.c
libigloo_la_LIBADD = \
avl/libiceavl.la \
httpp/libicehttpp.la \

112
include/igloo/list.h Normal file
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@ -0,0 +1,112 @@
/* Copyright (C) 2018 Philipp "ph3-der-loewe" Schafft <lion@lion.leolix.org>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#ifndef _LIBIGLOO__LIST_H_
#define _LIBIGLOO__LIST_H_
#ifdef __cplusplus
extern "C" {
#endif
#include <igloo/ro.h>
/* About thread safety:
* This set of functions is intentinally not thread safe.
*/
typedef struct igloo_list_iterator_tag igloo_list_iterator_t;
typedef struct igloo_list_iterator_tag igloo_list_iterator_storage_t;
igloo_RO_FORWARD_TYPE(igloo_list_t);
/* ---[ PRIVATE ]--- */
/*
* Those types are defined here as they must be known to the compiler.
* Nobody should ever try to access them directly.
*/
struct igloo_list_iterator_tag {
igloo_list_t *list;
size_t idx;
};
/* ---[ END PRIVATE ]--- */
/* To create lists use: igloo_ro_new(igloo_list_t)
*/
/* Clear a list (remove all elements). */
int igloo_list_clear(igloo_list_t *list);
/* Preallocate space for later mass-adding of elements. */
void igloo_list_preallocate(igloo_list_t *list, size_t request);
/* Limit elements to those of the given type. */
int igloo_list_set_type__real(igloo_list_t *list, const igloo_ro_type_t *type);
#define igloo_list_set_type(list,type) igloo_list_set_type__real((list),(igloo_ro__type__ ## type))
/* Add an element at the end of the list. */
int igloo_list_push(igloo_list_t *list, igloo_ro_t element);
/* Add an element at the begin of a list. */
int igloo_list_unshift(igloo_list_t *list, igloo_ro_t element);
/* Get and remove the first element from the list. */
igloo_ro_t igloo_list_shift(igloo_list_t *list);
/* Get and remove the last element from the list. */
igloo_ro_t igloo_list_pop(igloo_list_t *list);
/* Merge the content of the list elements into the list list. The list elements is not changed. */
int igloo_list_merge(igloo_list_t *list, igloo_list_t *elements);
/* Creates a new iterator that can be used to walk the list.
* The memory pointed to by storage of size storage_length is used to store the iterator's internal
* values. It must be allocated (e.g. on stack) untill igloo_list_iterator_end() is called.
* igloo_list_iterator_storage_t is provided to be used as storage object.
* Example:
* igloo_list_iterator_storage_t storage;
* igloo_list_iterator_t *iterator = igloo_list_iterator_start(list, &storage, sizeof(storage));
*/
igloo_list_iterator_t * igloo_list_iterator_start(igloo_list_t *list, void *storage, size_t storage_length);
/* Get next element from iterator. */
igloo_ro_t igloo_list_iterator_next(igloo_list_iterator_t *iterator);
/* Destory iterator. */
void igloo_list_iterator_end(igloo_list_iterator_t *iterator);
/* Rewind iterator. The next call to igloo_list_iterator_next() will return the first element again. */
int igloo_list_iterator_rewind(igloo_list_iterator_t *iterator);
/* Go thru all elements in the list.
* Parameters:
* list: the list to use.
* type: the type of elements in the list
* var: the variable to store the current element in.
* code: the code block to be used in the loop.
*
* Note: This can only be used on lists that contain only one type of objects.
* See also: igloo_list_set_type()
*/
#define igloo_list_foreach(list,type,var,code) \
do { \
igloo_list_iterator_storage_t __igloo_list_iterator_storage; \
igloo_list_iterator_t *__igloo_list_iterator = igloo_list_iterator_start((list), &__igloo_list_iterator_storage, sizeof(__igloo_list_iterator_storage)); \
type * var; \
for (; !igloo_RO_IS_NULL((var) = igloo_RO_TO_TYPE(igloo_list_iterator_next(__igloo_list_iterator),type));) { \
code; \
igloo_ro_unref((var)); \
} \
igloo_list_iterator_end(__igloo_list_iterator); \
} while (0);
#ifdef __cplusplus
}
#endif
#endif

1
include/igloo/ro.h
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@ -102,6 +102,7 @@ int igloo_ro_new__return_zero(igloo_ro_t self, const igloo_ro_type_t *type, va_l
#define igloo_RO_GET_TYPE(x) (igloo_RO__GETBASE((x)) == NULL ? NULL : igloo_RO__GETBASE((x))->type)
#define igloo_RO_GET_TYPENAME(x) (igloo_RO_GET_TYPE((x)) == NULL ? NULL : igloo_RO_GET_TYPE((x))->type_name)
#define igloo_RO_IS_VALID(x,type) (!igloo_RO_IS_NULL((x)) && igloo_RO_GET_TYPE((x)) == (igloo_ro__type__ ## type))
#define igloo_RO_HAS_TYPE(x,type) (!igloo_RO_IS_NULL((x)) && igloo_RO_GET_TYPE((x)) == (type))
/* Create a new refobject
* The type argument gives the type for the new object,

2
include/igloo/types.h
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@ -33,6 +33,7 @@ extern "C" {
#include "typedef.h"
typedef struct igloo_buffer_tag igloo_buffer_t;
typedef struct igloo_list_tag igloo_list_t;
/*
* This header includes forward declarations for several basic types.
@ -47,6 +48,7 @@ typedef union __attribute__ ((__transparent_union__)) {
/* Those are libigloo's own types */
igloo_RO_TYPE(igloo_ro_base_t)
igloo_RO_TYPE(igloo_buffer_t)
igloo_RO_TYPE(igloo_list_t)
/* Now we add the current compilation unit's private types if any */
#ifdef igloo_RO_PRIVATETYPES

319
src/list.c Normal file
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@ -0,0 +1,319 @@
/* Copyright (C) 2018 Philipp "ph3-der-loewe" Schafft <lion@lion.leolix.org>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <string.h>
#include <stdlib.h>
#include <igloo/list.h>
struct igloo_list_tag {
igloo_ro_base_t __base;
size_t offset;
size_t fill;
size_t length;
igloo_ro_t *elements;
const igloo_ro_type_t *type;
};
static void __free(igloo_ro_t self);
igloo_RO_PUBLIC_TYPE(igloo_list_t,
igloo_RO_TYPEDECL_FREE(__free),
igloo_RO_TYPEDECL_NEW_NOOP()
);
static void __free(igloo_ro_t self)
{
igloo_list_t *list = igloo_RO_TO_TYPE(self, igloo_list_t);
igloo_list_clear(list);
}
int igloo_list_clear(igloo_list_t *list)
{
size_t i;
if (!igloo_RO_IS_VALID(list, igloo_list_t))
return -1;
for (i = list->offset; i < list->fill; i++) {
igloo_ro_unref(list->elements[i]);
}
list->offset = 0;
list->fill = 0;
return 0;
}
static inline void igloo_list_preallocate__realign(igloo_list_t *list)
{
size_t new_len;
if (!list->offset)
return;
new_len = list->fill - list->offset;
memmove(list->elements, list->elements + list->offset, new_len*sizeof(*list->elements));
list->offset = 0;
list->fill = new_len;
}
void igloo_list_preallocate(igloo_list_t *list, size_t request)
{
size_t new_len;
if (!igloo_RO_IS_VALID(list, igloo_list_t))
return;
new_len = (list->fill - list->offset) + request;
if (new_len > list->length || (new_len + 32) > list->length) {
igloo_ro_t *n;
igloo_list_preallocate__realign(list);
n = realloc(list->elements, new_len*sizeof(*list->elements));
if (!n)
return;
list->elements = n;
list->length = new_len;
}
if (list->offset > 16 || ((list->length - list->fill) < request))
igloo_list_preallocate__realign(list);
}
int igloo_list_set_type__real(igloo_list_t *list, const igloo_ro_type_t *type)
{
size_t i;
if (!igloo_RO_IS_VALID(list, igloo_list_t))
return -1;
for (i = list->offset; i < list->fill; i++) {
if (!igloo_RO_HAS_TYPE(list->elements[i], type)) {
return -1;
}
}
list->type = type;
return 0;
}
int igloo_list_push(igloo_list_t *list, igloo_ro_t element)
{
if (!igloo_RO_IS_VALID(list, igloo_list_t))
return -1;
if ((list->type && !igloo_RO_HAS_TYPE(element, list->type)) || igloo_RO_IS_NULL(element))
return -1;
igloo_list_preallocate(list, 1);
if (list->fill == list->length)
return -1;
if (igloo_ro_ref(element) != 0)
return -1;
list->elements[list->fill++] = element;
return 0;
}
int igloo_list_unshift(igloo_list_t *list, igloo_ro_t element)
{
if (!igloo_RO_IS_VALID(list, igloo_list_t))
return -1;
if (list->offset == list->fill)
return igloo_list_push(list, element);
if ((list->type && !igloo_RO_HAS_TYPE(element, list->type)) || igloo_RO_IS_NULL(element))
return -1;
if (!list->offset) {
igloo_list_preallocate(list, 1);
if (list->fill == list->length)
return -1;
memmove(list->elements + 1, list->elements, sizeof(*list->elements)*list->fill);
list->offset++;
list->fill++;
}
if (!list->offset)
return -1;
if (igloo_ro_ref(element) != 0)
return -1;
list->elements[--list->offset] = element;
return 0;
}
igloo_ro_t igloo_list_shift(igloo_list_t *list)
{
igloo_ro_t ret;
if (!igloo_RO_IS_VALID(list, igloo_list_t))
return igloo_RO_NULL;
if (list->offset == list->fill)
return igloo_RO_NULL;
ret = list->elements[list->offset++];
igloo_list_preallocate(list, 0);
return ret;
}
igloo_ro_t igloo_list_pop(igloo_list_t *list)
{
igloo_ro_t ret;
if (!igloo_RO_IS_VALID(list, igloo_list_t))
return igloo_RO_NULL;
if (list->offset == list->fill)
return igloo_RO_NULL;
ret = list->elements[--list->fill];
igloo_list_preallocate(list, 0);
return ret;
}
static inline int igloo_list_copy_elements(igloo_list_t *list, igloo_list_t *elements)
{
size_t i;
for (i = elements->offset; i < elements->fill; i++) {
if (list->fill == list->length) {
igloo_list_preallocate(list, 1);
if (list->fill == list->length)
return -1;
}
if (igloo_ro_ref(elements->elements[i]) != 0)
return -1;
list->elements[list->fill++] = elements->elements[i];
}
return 0;
}
int igloo_list_merge(igloo_list_t *list, igloo_list_t *elements)
{
size_t old_fill;
if (!igloo_RO_IS_VALID(list, igloo_list_t) || !igloo_RO_IS_VALID(elements, igloo_list_t))
return -1;
if (list->type) {
size_t i;
for (i = elements->offset; i < elements->fill; i++) {
if (!igloo_RO_HAS_TYPE(elements->elements[i], list->type))
return -1;
}
}
igloo_list_preallocate(list, elements->fill - elements->offset);
old_fill = list->fill;
if (igloo_list_copy_elements(list, elements) != 0) {
size_t i;
for (i = old_fill; i < list->fill; i++) {
igloo_ro_unref(list->elements[i]);
}
list->fill = old_fill;
return -1;
}
return 0;
}
igloo_list_iterator_t * igloo_list_iterator_start(igloo_list_t *list, void *storage, size_t storage_length)
{
igloo_list_iterator_t *iterator;
if (!igloo_RO_IS_VALID(list, igloo_list_t))
return NULL;
if (!storage || storage_length != sizeof(igloo_list_iterator_t))
return NULL;
iterator = storage;
memset(iterator, 0, sizeof(*iterator));
if (igloo_ro_ref(list) != 0)
return NULL;
iterator->list = list;
igloo_list_iterator_rewind(iterator);
return iterator;
}
igloo_ro_t igloo_list_iterator_next(igloo_list_iterator_t *iterator)
{
size_t physical;
physical = iterator->idx + iterator->list->offset;
if (physical >= iterator->list->fill)
return igloo_RO_NULL;
if (igloo_ro_ref(iterator->list->elements[physical]) != 0)
return igloo_RO_NULL;
iterator->idx++;
return iterator->list->elements[physical];
}
void igloo_list_iterator_end(igloo_list_iterator_t *iterator)
{
if (!iterator)
return;
igloo_ro_unref(iterator->list);
}
int igloo_list_iterator_rewind(igloo_list_iterator_t *iterator)
{
if (!iterator)
return -1;
iterator->idx = 0;
return 0;
}

7
src/tests/Makefile.am
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@ -39,6 +39,13 @@ ctest_buffer_test_LDADD = libice_ctest.la \
src/buffer.o
check_PROGRAMS += ctest_buffer.test
ctest_list_test_SOURCES = %reldir%/ctest_list.c
ctest_list_test_LDADD = libice_ctest.la \
thread/libicethread.la \
avl/libiceavl.la \
src/ro.o \
src/list.o
check_PROGRAMS += ctest_list.test
# Add all programs to TESTS
TESTS = $(check_PROGRAMS)

419
src/tests/ctest_list.c Normal file
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@ -0,0 +1,419 @@
/* Icecast
*
* This program is distributed under the GNU General Public License, version 2.
* A copy of this license is included with this source.
*
* Copyright 2018, Philipp "ph3-der-loewe" Schafft <lion@lion.leolix.org>,
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <string.h>
#include "ctest_lib.h"
#include <igloo/ro.h>
#include <igloo/list.h>
static void test_create_ref_unref(void)
{
igloo_list_t *a;
a = igloo_ro_new(igloo_list_t);
ctest_test("list created", !igloo_RO_IS_NULL(a));
ctest_test("un-referenced", igloo_ro_unref(a) == 0);
}
static void test__create_push_unshift(igloo_list_t **list, igloo_ro_base_t **a, igloo_ro_base_t **b)
{
*list = NULL;
*a = NULL;
*b = NULL;
*list = igloo_ro_new(igloo_list_t);
ctest_test("list created", !igloo_RO_IS_NULL(*list));
*a = igloo_ro_new(igloo_ro_base_t);
ctest_test("test object a created", !igloo_RO_IS_NULL(*a));
*b = igloo_ro_new(igloo_ro_base_t);
ctest_test("test object b created", !igloo_RO_IS_NULL(*b));
ctest_test("test object a pushed", igloo_list_push(*list, *a) == 0);
ctest_test("test object b unshifted", igloo_list_unshift(*list, *b) == 0);
}
static void test_list_push_unshift(void)
{
igloo_list_t *list;
igloo_ro_base_t *a;
igloo_ro_base_t *b;
test__create_push_unshift(&list, &a, &b);
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
static void test_list_push_unshift_pop(void)
{
igloo_list_t *list;
igloo_ro_base_t *a;
igloo_ro_base_t *b;
igloo_ro_t ret;
test__create_push_unshift(&list, &a, &b);
ret = igloo_list_pop(list);
ctest_test("popped element", !igloo_RO_IS_NULL(ret));
ctest_test("popped element matches a", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == a);
ctest_test("un-referenced popped element", igloo_ro_unref(ret) == 0);
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
static void test_list_push_unshift_pop_pop(void)
{
igloo_list_t *list;
igloo_ro_base_t *a;
igloo_ro_base_t *b;
igloo_ro_t ret;
test__create_push_unshift(&list, &a, &b);
ret = igloo_list_pop(list);
ctest_test("popped element", !igloo_RO_IS_NULL(ret));
ctest_test("popped element matches a", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == a);
ctest_test("un-referenced popped element", igloo_ro_unref(ret) == 0);
ret = igloo_list_pop(list);
ctest_test("popped element", !igloo_RO_IS_NULL(ret));
ctest_test("popped element matches b", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == b);
ctest_test("un-referenced popped element", igloo_ro_unref(ret) == 0);
ret = igloo_list_pop(list);
ctest_test("popped no element", igloo_RO_IS_NULL(ret));
igloo_ro_unref(ret); /* just in case we got an element */
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
static void test_list_push_unshift_shift(void)
{
igloo_list_t *list;
igloo_ro_base_t *a;
igloo_ro_base_t *b;
igloo_ro_t ret;
test__create_push_unshift(&list, &a, &b);
ret = igloo_list_shift(list);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches b", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == b);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
static void test_list_push_unshift_shift_shift(void)
{
igloo_list_t *list;
igloo_ro_base_t *a;
igloo_ro_base_t *b;
igloo_ro_t ret;
test__create_push_unshift(&list, &a, &b);
ret = igloo_list_shift(list);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches b", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == b);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ret = igloo_list_shift(list);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches a", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == a);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ret = igloo_list_shift(list);
ctest_test("shifted no element", igloo_RO_IS_NULL(ret));
igloo_ro_unref(ret); /* just in case we got an element */
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
static void test_list_push_unshift_pop_shift(void)
{
igloo_list_t *list;
igloo_ro_base_t *a;
igloo_ro_base_t *b;
igloo_ro_t ret;
test__create_push_unshift(&list, &a, &b);
ret = igloo_list_pop(list);
ctest_test("popped element", !igloo_RO_IS_NULL(ret));
ctest_test("popped element matches a", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == a);
ctest_test("un-referenced popped element", igloo_ro_unref(ret) == 0);
ret = igloo_list_shift(list);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches b", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == b);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
static void test_list_push_unshift_shift_pop(void)
{
igloo_list_t *list;
igloo_ro_base_t *a;
igloo_ro_base_t *b;
igloo_ro_t ret;
test__create_push_unshift(&list, &a, &b);
ret = igloo_list_shift(list);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches b", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == b);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ret = igloo_list_pop(list);
ctest_test("popped element", !igloo_RO_IS_NULL(ret));
ctest_test("popped element matches a", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == a);
ctest_test("un-referenced popped element", igloo_ro_unref(ret) == 0);
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
static void test_list_merge(void)
{
igloo_list_t *list_a;
igloo_list_t *list_b;
igloo_ro_base_t *a;
igloo_ro_base_t *b;
igloo_ro_t ret;
list_a = igloo_ro_new(igloo_list_t);
ctest_test("list a created", !igloo_RO_IS_NULL(list_a));
list_b = igloo_ro_new(igloo_list_t);
ctest_test("list a created", !igloo_RO_IS_NULL(list_b));
a = igloo_ro_new(igloo_ro_base_t);
ctest_test("test object a created", !igloo_RO_IS_NULL(a));
b = igloo_ro_new(igloo_ro_base_t);
ctest_test("test object b created", !igloo_RO_IS_NULL(b));
ctest_test("test object a pushed to list a", igloo_list_push(list_a, a) == 0);
ctest_test("test object b pushed to list b", igloo_list_push(list_b, b) == 0);
ctest_test("merged list b into list a", igloo_list_merge(list_a, list_b) == 0);
ret = igloo_list_shift(list_a);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches a", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == a);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ret = igloo_list_shift(list_a);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches b", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == b);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ret = igloo_list_shift(list_a);
ctest_test("shifted no element", igloo_RO_IS_NULL(ret));
igloo_ro_unref(ret); /* just in case we got an element */
ret = igloo_list_shift(list_b);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches b", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == b);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ret = igloo_list_shift(list_b);
ctest_test("shifted no element", igloo_RO_IS_NULL(ret));
igloo_ro_unref(ret); /* just in case we got an element */
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list a", igloo_ro_unref(list_a) == 0);
ctest_test("un-referenced list b", igloo_ro_unref(list_b) == 0);
}
static void test_list_set_type(void)
{
igloo_list_t *list;
igloo_ro_base_t *a;
igloo_list_t *b;
igloo_ro_t ret;
list = igloo_ro_new(igloo_list_t);
ctest_test("list created", !igloo_RO_IS_NULL(list));
a = igloo_ro_new(igloo_ro_base_t);
ctest_test("test object a created", !igloo_RO_IS_NULL(a));
b = igloo_ro_new(igloo_list_t);
ctest_test("test object b created", !igloo_RO_IS_NULL(b));
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) == 0);
ctest_test("pinned list to type igloo_list_t", igloo_list_set_type(list, igloo_list_t) == 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) == 0);
ctest_test("test object a pushed to list", igloo_list_push(list, a) == 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) == 0);
ctest_test("can not pin list to type igloo_list_t", igloo_list_set_type(list, igloo_list_t) != 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) == 0);
ctest_test("test object b failed to pushed to list", igloo_list_push(list, b) != 0);
ctest_test("list cleared", igloo_list_clear(list) == 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) == 0);
ctest_test("can not pin list to type igloo_list_t", igloo_list_set_type(list, igloo_list_t) == 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) == 0);
ctest_test("un-referenced list a", igloo_ro_unref(list) == 0);
list = igloo_ro_new(igloo_list_t);
ctest_test("list created", !igloo_RO_IS_NULL(list));
ctest_test("test object a pushed to list", igloo_list_push(list, a) == 0);
ctest_test("test object b pushed to list", igloo_list_push(list, b) == 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) != 0);
ctest_test("pinned list to type igloo_list_t", igloo_list_set_type(list, igloo_list_t) != 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) != 0);
ret = igloo_list_shift(list);
ctest_test("shifted element", !igloo_RO_IS_NULL(ret));
ctest_test("shifted element matches a", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == a);
ctest_test("un-referenced shifted element", igloo_ro_unref(ret) == 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) != 0);
ctest_test("can not pin list to type igloo_list_t", igloo_list_set_type(list, igloo_list_t) == 0);
ctest_test("pinned list to type igloo_ro_base_t", igloo_list_set_type(list, igloo_ro_base_t) != 0);
ctest_test("un-referenced a", igloo_ro_unref(a) == 0);
ctest_test("un-referenced b", igloo_ro_unref(b) == 0);
ctest_test("un-referenced list a", igloo_ro_unref(list) == 0);
}
static void test_list_iterator(void)
{
igloo_list_t *list;
igloo_ro_base_t * elements[3] = {NULL, NULL, NULL};
igloo_list_iterator_storage_t storage;
igloo_list_iterator_t *iterator;
size_t i;
test__create_push_unshift(&list, &(elements[1]), &(elements[0]));
iterator = igloo_list_iterator_start(list, &storage, sizeof(storage));
ctest_test("iterator created", iterator != NULL);
for (i = 0; i < (sizeof(elements)/sizeof(*elements)); i++) {
igloo_ro_t ret = igloo_list_iterator_next(iterator);
ctest_test("shifted element matches corresponding element in list", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == elements[i]);
if (!igloo_RO_IS_NULL(ret)) {
ctest_test("un-referenced element returned by iterator", igloo_ro_unref(ret) == 0);
}
}
ctest_test("rewinded iterator", igloo_list_iterator_rewind(iterator) == 0);
for (i = 0; i < (sizeof(elements)/sizeof(*elements)); i++) {
igloo_ro_t ret = igloo_list_iterator_next(iterator);
ctest_test("shifted element matches corresponding element in list", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == elements[i]);
if (!igloo_RO_IS_NULL(ret)) {
ctest_test("un-referenced element returned by iterator", igloo_ro_unref(ret) == 0);
}
}
ctest_test("rewinded iterator", igloo_list_iterator_rewind(iterator) == 0);
for (i = 0; i < 1; i++) {
igloo_ro_t ret = igloo_list_iterator_next(iterator);
ctest_test("shifted element matches corresponding element in list", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == elements[i]);
if (!igloo_RO_IS_NULL(ret)) {
ctest_test("un-referenced element returned by iterator", igloo_ro_unref(ret) == 0);
}
}
ctest_test("rewinded iterator", igloo_list_iterator_rewind(iterator) == 0);
for (i = 0; i < (sizeof(elements)/sizeof(*elements)); i++) {
igloo_ro_t ret = igloo_list_iterator_next(iterator);
ctest_test("shifted element matches corresponding element in list", igloo_RO_TO_TYPE(ret, igloo_ro_base_t) == elements[i]);
if (!igloo_RO_IS_NULL(ret)) {
ctest_test("un-referenced element returned by iterator", igloo_ro_unref(ret) == 0);
}
}
igloo_list_iterator_end(iterator);
ctest_test("un-referenced a", igloo_ro_unref(elements[0]) == 0);
ctest_test("un-referenced b", igloo_ro_unref(elements[1]) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
static void test_list_foreach(void)
{
igloo_list_t *list;
igloo_ro_base_t * elements[3] = {NULL, NULL, NULL};
size_t i = 0;
test__create_push_unshift(&list, &(elements[1]), &(elements[0]));
igloo_list_foreach(list, igloo_ro_base_t, ret, {
ctest_test("foreach returned element matches corresponding element in list", ret == elements[i]);
i++;
});
ctest_test("un-referenced a", igloo_ro_unref(elements[0]) == 0);
ctest_test("un-referenced b", igloo_ro_unref(elements[1]) == 0);
ctest_test("un-referenced list", igloo_ro_unref(list) == 0);
}
int main (void)
{
ctest_init();
test_create_ref_unref();
test_list_push_unshift();
test_list_push_unshift_pop();
test_list_push_unshift_pop_pop();
test_list_push_unshift_shift();
test_list_push_unshift_shift_shift();
test_list_push_unshift_pop_shift();
test_list_push_unshift_shift_pop();
test_list_merge();
test_list_set_type();
test_list_iterator();
test_list_foreach();
ctest_fin();
return 0;
}