/* dict - a generic dictionary, variation over hash table */
-/* Copyright (c) 2004-2015. The SimGrid Team.
+/* Copyright (c) 2004-2017. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
-#include <string.h>
-#include <stdio.h>
+#include <cstdio>
+#include <cstring>
+
#include "xbt/dict.h"
#include "xbt/ex.h"
+#include <xbt/ex.hpp>
#include "xbt/log.h"
#include "xbt/mallocator.h"
#include "src/xbt_modinter.h"
XBT_LOG_NEW_DEFAULT_SUBCATEGORY(xbt_dict, xbt, "Dictionaries provide the same functionalities as hash tables");
-/**
- * \brief Constructor
- * \return pointer to the destination
- * \see xbt_dict_new_homogenous(), xbt_dict_free()
- *
- * Creates and initialize a new dictionary with a default hashtable size.
- * The dictionary is heterogeneous: each element can have a different free function.
- */
-xbt_dict_t xbt_dict_new(void)
+xbt_dict_t xbt_dict_new()
{
- xbt_dict_t dict = xbt_dict_new_homogeneous(NULL);
+ XBT_WARN("Function xbt_dict_new() will soon be dropped. Please switch to xbt_dict_new_homogeneous()");
+ xbt_dict_t dict = xbt_dict_new_homogeneous(nullptr);
dict->homogeneous = 0;
return dict;
*/
xbt_dict_t xbt_dict_new_homogeneous(void_f_pvoid_t free_ctn)
{
- if (dict_elm_mallocator == NULL)
+ if (dict_elm_mallocator == nullptr)
xbt_dict_preinit();
xbt_dict_t dict;
*/
void xbt_dict_free(xbt_dict_t * dict)
{
- int i;
- xbt_dictelm_t current, previous;
- int table_size;
- xbt_dictelm_t *table;
-
- // if ( *dict ) xbt_dict_dump_sizes(*dict);
-
- if (dict != NULL && *dict != NULL) {
- table_size = (*dict)->table_size;
- table = (*dict)->table;
+ if (dict != nullptr && *dict != nullptr) {
+ int table_size = (*dict)->table_size;
+ xbt_dictelm_t* table = (*dict)->table;
/* Warning: the size of the table is 'table_size+1'...
* This is because table_size is used as a binary mask in xbt_dict_rehash */
- for (i = 0; (*dict)->count && i <= table_size; i++) {
- current = table[i];
- while (current != NULL) {
+ for (int i = 0; (*dict)->count && i <= table_size; i++) {
+ xbt_dictelm_t current = table[i];
+ xbt_dictelm_t previous;
+
+ while (current != nullptr) {
previous = current;
current = current->next;
xbt_dictelm_free(*dict, previous);
}
xbt_free(table);
xbt_free(*dict);
- *dict = NULL;
+ *dict = nullptr;
}
}
/** Returns the amount of elements in the dict */
unsigned int xbt_dict_size(xbt_dict_t dict)
{
- return (dict ? (unsigned int) dict->count : (unsigned int) 0);
+ return (dict != nullptr ? static_cast<unsigned int>(dict->count) : static_cast<unsigned int>(0));
}
/* Expend the size of the dict */
{
const unsigned oldsize = dict->table_size + 1;
unsigned newsize = oldsize * 2;
- xbt_dictelm_t *currcell;
- xbt_dictelm_t *twincell;
- xbt_dictelm_t bucklet;
- xbt_dictelm_t *pprev;
- currcell = (xbt_dictelm_t *) xbt_realloc((char *) dict->table, newsize * sizeof(xbt_dictelm_t));
+ xbt_dictelm_t *currcell = (xbt_dictelm_t *) xbt_realloc((char *) dict->table, newsize * sizeof(xbt_dictelm_t));
memset(&currcell[oldsize], 0, oldsize * sizeof(xbt_dictelm_t)); /* zero second half */
- dict->table_size = --newsize;
+ newsize--;
+ dict->table_size = newsize;
dict->table = currcell;
- XBT_DEBUG("REHASH (%d->%d)", oldsize, newsize);
+ XBT_DEBUG("REHASH (%u->%u)", oldsize, newsize);
for (unsigned i = 0; i < oldsize; i++, currcell++) {
- if (!*currcell) /* empty cell */
+ if (*currcell == nullptr) /* empty cell */
continue;
- twincell = currcell + oldsize;
- for (pprev = currcell, bucklet = *currcell; bucklet; bucklet = *pprev) {
+
+ xbt_dictelm_t *twincell = currcell + oldsize;
+ xbt_dictelm_t *pprev = currcell;
+ xbt_dictelm_t bucklet = *currcell;
+ for (; bucklet != nullptr; bucklet = *pprev) {
/* Since we use "& size" instead of "%size" and since the size was doubled, each bucklet of this cell must either:
- stay in cell i (ie, currcell)
- go to the cell i+oldsize (ie, twincell) */
if ((bucklet->hash_code & newsize) != i) { /* Move to b */
*pprev = bucklet->next;
bucklet->next = *twincell;
- if (!*twincell)
+ if (*twincell == nullptr)
dict->fill++;
*twincell = bucklet;
- continue;
} else {
pprev = &bucklet->next;
}
}
- if (!*currcell) /* everything moved */
+ if (*currcell == nullptr) /* everything moved */
dict->fill--;
}
}
{
unsigned int hash_code = xbt_str_hash_ext(key, key_len);
- xbt_dictelm_t current, previous = NULL;
+ xbt_dictelm_t current;
+ xbt_dictelm_t previous = nullptr;
+ xbt_assert(not free_ctn, "Cannot set an individual free function in homogeneous dicts.");
XBT_CDEBUG(xbt_dict, "ADD %.*s hash = %u, size = %d, & = %u", key_len, key, hash_code,
dict->table_size, hash_code & dict->table_size);
current = dict->table[hash_code & dict->table_size];
- while (current != NULL && (hash_code != current->hash_code || key_len != current->key_len
+ while (current != nullptr && (hash_code != current->hash_code || key_len != current->key_len
|| memcmp(key, current->key, key_len))) {
previous = current;
current = current->next;
}
- if (current == NULL) {
+ if (current == nullptr) {
/* this key doesn't exist yet */
- current = xbt_dictelm_new(dict, key, key_len, hash_code, data, free_ctn);
+ current = xbt_dictelm_new(key, key_len, hash_code, data);
dict->count++;
- if (previous == NULL) {
+ if (previous == nullptr) {
dict->table[hash_code & dict->table_size] = current;
dict->fill++;
if ((dict->fill * 100) / (dict->table_size + 1) > MAX_FILL_PERCENT)
unsigned int hash_code = xbt_str_hash_ext(key, key_len);
xbt_dictelm_t current = dict->table[hash_code & dict->table_size];
- while (current != NULL && (hash_code != current->hash_code || key_len != current->key_len
+ while (current != nullptr && (hash_code != current->hash_code || key_len != current->key_len
|| memcmp(key, current->key, key_len))) {
current = current->next;
}
- if (current == NULL)
+ if (current == nullptr)
THROWF(not_found_error, 0, "key %.*s not found", key_len, key);
return current->content;
}
-/** @brief like xbt_dict_get_ext(), but returning NULL when not found */
+/** @brief like xbt_dict_get_ext(), but returning nullptr when not found */
void *xbt_dict_get_or_null_ext(xbt_dict_t dict, const char *key, int key_len)
{
unsigned int hash_code = xbt_str_hash_ext(key, key_len);
xbt_dictelm_t current = dict->table[hash_code & dict->table_size];
- while (current != NULL && (hash_code != current->hash_code || key_len != current->key_len
+ while (current != nullptr && (hash_code != current->hash_code || key_len != current->key_len
|| memcmp(key, current->key, key_len))) {
current = current->next;
}
- if (current == NULL)
- return NULL;
+ if (current == nullptr)
+ return nullptr;
return current->content;
}
/**
* @brief retrieve the key associated to that object. Warning, that's a linear search
*
- * Returns NULL if the object cannot be found
+ * Returns nullptr if the object cannot be found
*/
char *xbt_dict_get_key(xbt_dict_t dict, const void *data)
{
for (int i = 0; i <= dict->table_size; i++) {
xbt_dictelm_t current = dict->table[i];
- while (current != NULL) {
+ while (current != nullptr) {
if (current->content == data)
return current->key;
current = current->next;
}
}
- return NULL;
+ return nullptr;
}
/** @brief retrieve the key associated to that xbt_dictelm_t. */
* \return the data that we are looking for
*
* Search the given \a key. Throws not_found_error when not found.
- * Check xbt_dict_get_or_null() for a version returning NULL without exception when not found.
+ * Check xbt_dict_get_or_null() for a version returning nullptr without exception when not found.
*/
void *xbt_dict_get(xbt_dict_t dict, const char *key)
{
* \return the s_xbt_dictelm_t that we are looking for
*
* Search the given \a key. Throws not_found_error when not found.
- * Check xbt_dict_get_or_null() for a version returning NULL without exception when not found.
+ * Check xbt_dict_get_or_null() for a version returning nullptr without exception when not found.
*/
xbt_dictelm_t xbt_dict_get_elm(xbt_dict_t dict, const char *key)
{
xbt_dictelm_t current = xbt_dict_get_elm_or_null(dict, key);
- if (current == NULL)
+ if (current == nullptr)
THROWF(not_found_error, 0, "key %s not found", key);
return current;
}
/**
- * \brief like xbt_dict_get(), but returning NULL when not found
+ * \brief like xbt_dict_get(), but returning nullptr when not found
*/
void *xbt_dict_get_or_null(xbt_dict_t dict, const char *key)
{
xbt_dictelm_t current = xbt_dict_get_elm_or_null(dict, key);
- if (current == NULL)
- return NULL;
+ if (current == nullptr)
+ return nullptr;
return current->content;
}
/**
- * \brief like xbt_dict_get_elm(), but returning NULL when not found
+ * \brief like xbt_dict_get_elm(), but returning nullptr when not found
*/
xbt_dictelm_t xbt_dict_get_elm_or_null(xbt_dict_t dict, const char *key)
{
unsigned int hash_code = xbt_str_hash(key);
xbt_dictelm_t current = dict->table[hash_code & dict->table_size];
- while (current != NULL && (hash_code != current->hash_code || strcmp(key, current->key)))
+ while (current != nullptr && (hash_code != current->hash_code || strcmp(key, current->key)))
current = current->next;
return current;
}
void xbt_dict_remove_ext(xbt_dict_t dict, const char *key, int key_len)
{
unsigned int hash_code = xbt_str_hash_ext(key, key_len);
- xbt_dictelm_t previous = NULL;
+ xbt_dictelm_t previous = nullptr;
xbt_dictelm_t current = dict->table[hash_code & dict->table_size];
- while (current != NULL && (hash_code != current->hash_code || key_len != current->key_len
+ while (current != nullptr && (hash_code != current->hash_code || key_len != current->key_len
|| strncmp(key, current->key, key_len))) {
previous = current; /* save the previous node */
current = current->next;
}
- if (current == NULL)
+ if (current == nullptr)
THROWF(not_found_error, 0, "key %.*s not found", key_len, key);
-
- if (previous != NULL) {
- previous->next = current->next;
- } else {
- dict->table[hash_code & dict->table_size] = current->next;
+ else {
+ if (previous != nullptr) {
+ previous->next = current->next;
+ } else {
+ dict->table[hash_code & dict->table_size] = current->next;
+ }
}
- if (!dict->table[hash_code & dict->table_size])
+ if (not dict->table[hash_code & dict->table_size])
dict->fill--;
xbt_dictelm_free(dict, current);
return;
for (int i = 0; i <= dict->table_size; i++) {
- xbt_dictelm_t previous = NULL;
+ xbt_dictelm_t previous = nullptr;
xbt_dictelm_t current = dict->table[i];
- while (current != NULL) {
+ while (current != nullptr) {
previous = current;
current = current->next;
xbt_dictelm_free(dict, previous);
}
- dict->table[i] = NULL;
+ dict->table[i] = nullptr;
}
dict->count = 0;
*/
int xbt_dict_is_empty(xbt_dict_t dict)
{
- return !dict || (xbt_dict_length(dict) == 0);
+ return not dict || (xbt_dict_length(dict) == 0);
}
/**
* \param dict the exibitionist
* \param output a function to dump each data in the tree (check @ref xbt_dict_dump_output_string)
*
- * Outputs the content of the structure. (for debugging purpose). \a output is a function to output the data. If NULL,
+ * Outputs the content of the structure. (for debugging purpose). \a output is a function to output the data. If nullptr,
* data won't be displayed.
*/
void xbt_dict_dump(xbt_dict_t dict, void_f_pvoid_t output)
{
- int i;
xbt_dictelm_t element;
printf("Dict %p:\n", dict);
- if (dict != NULL) {
- for (i = 0; i < dict->table_size; i++) {
+ if (dict != nullptr) {
+ for (int i = 0; i < dict->table_size; i++) {
element = dict->table[i];
if (element) {
printf("[\n");
- while (element != NULL) {
+ while (element != nullptr) {
printf(" %s -> '", element->key);
- if (output != NULL) {
+ if (output != nullptr) {
output(element->content);
}
printf("'\n");
}
}
-xbt_dynar_t all_sizes = NULL;
+xbt_dynar_t all_sizes = nullptr;
/** @brief shows some debugging info about the bucklet repartition */
void xbt_dict_dump_sizes(xbt_dict_t dict)
{
printf("Dict %p: %d bucklets, %d used cells (of %d) ", dict, dict->count, dict->fill, dict->table_size);
- if (!dict) {
+ if (not dict) {
printf("\n");
return;
}
- xbt_dynar_t sizes = xbt_dynar_new(sizeof(int), NULL);
+ xbt_dynar_t sizes = xbt_dynar_new(sizeof(int), nullptr);
for (int i = 0; i < dict->table_size; i++) {
xbt_dictelm_t element = dict->table[i];
size = 0;
if (element) {
- while (element != NULL) {
+ while (element != nullptr) {
size++;
element = element->next;
}
xbt_dynar_set(sizes, size, &prevsize);
}
}
- if (!all_sizes)
- all_sizes = xbt_dynar_new(sizeof(int), NULL);
+ if (not all_sizes)
+ all_sizes = xbt_dynar_new(sizeof(int), nullptr);
xbt_dynar_foreach(sizes, count, size) {
/* Copy values of this one into all_sizes */
}
/* Report current sizes */
- if (count == 0)
- continue;
- if (size == 0)
- continue;
- printf("%uelm x %u cells; ", count, size);
+ if (count != 0 && size != 0)
+ printf("%uelm x %u cells; ", count, size);
}
printf("\n");
xbt_dynar_free(&sizes);
* This is an internal XBT function called during the lib initialization.
* It can be used several times to recreate the mallocator, for example when you switch to MC mode
*/
-void xbt_dict_preinit(void)
+void xbt_dict_preinit()
{
- if (dict_elm_mallocator == NULL)
- dict_elm_mallocator = xbt_mallocator_new(
- 256, dict_elm_mallocator_new_f, dict_elm_mallocator_free_f,
+ if (dict_elm_mallocator == nullptr)
+ dict_elm_mallocator = xbt_mallocator_new(256, dict_elm_mallocator_new_f, dict_elm_mallocator_free_f,
dict_elm_mallocator_reset_f);
- if (dict_het_elm_mallocator == NULL)
- dict_het_elm_mallocator = xbt_mallocator_new(
- 256, dict_het_elm_mallocator_new_f, dict_het_elm_mallocator_free_f,
- dict_het_elm_mallocator_reset_f);
}
/**
* Destroy the dict mallocators.
* This is an internal XBT function during the lib initialization
*/
-void xbt_dict_postexit(void)
+void xbt_dict_postexit()
{
- if (dict_elm_mallocator != NULL) {
+ if (dict_elm_mallocator != nullptr) {
xbt_mallocator_free(dict_elm_mallocator);
- dict_elm_mallocator = NULL;
- xbt_mallocator_free(dict_het_elm_mallocator);
- dict_het_elm_mallocator = NULL;
+ dict_elm_mallocator = nullptr;
}
if (all_sizes) {
unsigned int count;
int total_count = 0;
printf("Overall stats:");
xbt_dynar_foreach(all_sizes, count, size) {
- if (count == 0)
- continue;
- if (size == 0)
- continue;
- printf("%uelm x %d cells; ", count, size);
- avg += count * size;
- total_count += size;
+ if (count != 0 && size != 0) {
+ printf("%uelm x %d cells; ", count, size);
+ avg += count * size;
+ total_count += size;
+ }
}
- printf("; %f elm per cell\n", avg / (double) total_count);
+ if (total_count > 0)
+ printf("; %f elm per cell\n", avg / (double)total_count);
+ else
+ printf("; 0 elm per cell\n");
}
}
#ifdef SIMGRID_TEST
-#include <time.h>
+#include "src/internal_config.h"
#include "xbt.h"
#include "xbt/ex.h"
-#include "src/internal_config.h"
+#include <ctime>
+#include <xbt/ex.hpp>
XBT_LOG_EXTERNAL_DEFAULT_CATEGORY(xbt_dict);
XBT_TEST_SUITE("dict", "Dict data container");
-static void debuged_add_ext(xbt_dict_t head, const char *key, const char *data_to_fill, void_f_pvoid_t free_f)
+static void debugged_add_ext(xbt_dict_t head, const char* key, const char* data_to_fill)
{
char *data = xbt_strdup(data_to_fill);
xbt_test_log("Add %s under %s", data_to_fill, key);
- xbt_dict_set(head, key, data, free_f);
+ xbt_dict_set(head, key, data, nullptr);
if (XBT_LOG_ISENABLED(xbt_dict, xbt_log_priority_debug)) {
xbt_dict_dump(head, (void (*)(void *)) &printf);
fflush(stdout);
}
}
-static void debuged_add(xbt_dict_t head, const char *key, void_f_pvoid_t free_f)
+static void debugged_add(xbt_dict_t head, const char* key)
{
- debuged_add_ext(head, key, key, free_f);
+ debugged_add_ext(head, key, key);
}
-static void fill(xbt_dict_t * head, int homogeneous)
+static xbt_dict_t new_fixture()
{
- void_f_pvoid_t free_f = homogeneous ? NULL : &free;
-
xbt_test_add("Fill in the dictionnary");
- *head = homogeneous ? xbt_dict_new_homogeneous(&free) : xbt_dict_new();
- debuged_add(*head, "12", free_f);
- debuged_add(*head, "12a", free_f);
- debuged_add(*head, "12b", free_f);
- debuged_add(*head, "123", free_f);
- debuged_add(*head, "123456", free_f);
- /* Child becomes child of what to add */
- debuged_add(*head, "1234", free_f);
- /* Need of common ancestor */
- debuged_add(*head, "123457", free_f);
+ xbt_dict_t head = xbt_dict_new_homogeneous(&free);
+ debugged_add(head, "12");
+ debugged_add(head, "12a");
+ debugged_add(head, "12b");
+ debugged_add(head, "123");
+ debugged_add(head, "123456");
+ debugged_add(head, "1234");
+ debugged_add(head, "123457");
+
+ return head;
}
static void search_ext(xbt_dict_t head, const char *key, const char *data)
char *found = (char*) xbt_dict_get(head, key);
xbt_test_log("Found %s", found);
if (data) {
- xbt_test_assert(found, "data do not match expectations: found NULL while searching for %s", data);
+ xbt_test_assert(found, "data do not match expectations: found nullptr while searching for %s", data);
if (found)
- xbt_test_assert(!strcmp(data, found), "data do not match expectations: found %s while searching for %s",
- found, data);
+ xbt_test_assert(not strcmp(data, found), "data do not match expectations: found %s while searching for %s", found,
+ data);
} else {
- xbt_test_assert(!found, "data do not match expectations: found %s while searching for NULL", found);
+ xbt_test_assert(not found, "data do not match expectations: found %s while searching for nullptr", found);
}
}
search_ext(head, key, key);
}
-static void debuged_remove(xbt_dict_t head, const char *key)
+static void debugged_remove(xbt_dict_t head, const char* key)
{
xbt_test_add("Remove '%s'", key);
xbt_dict_remove(head, key);
- /* xbt_dict_dump(head,(void (*)(void*))&printf); */
}
static void traverse(xbt_dict_t head)
{
- xbt_dict_cursor_t cursor = NULL;
+ xbt_dict_cursor_t cursor = nullptr;
char *key;
char *data;
int i = 0;
xbt_dict_foreach(head, cursor, key, data) {
- if (!key || !data || strcmp(key, data)) {
+ if (not key || not data || strcmp(key, data)) {
xbt_test_log("Seen #%d: %s->%s", ++i, key, data);
} else {
xbt_test_log("Seen #%d: %s", ++i, key);
}
- xbt_test_assert(!data || !strcmp(key, data), "Key(%s) != value(%s). Aborting", key, data);
+ xbt_test_assert(key && data && strcmp(key, data) == 0, "Key(%s) != value(%s). Aborting", key, data);
}
}
static void count(xbt_dict_t dict, int length)
{
+ xbt_test_add("Count elements (expecting %d)", length);
+ xbt_test_assert(xbt_dict_length(dict) == length, "Announced length(%d) != %d.", xbt_dict_length(dict), length);
+
xbt_dict_cursor_t cursor;
char *key;
void *data;
int effective = 0;
-
- xbt_test_add("Count elements (expecting %d)", length);
- xbt_test_assert(xbt_dict_length(dict) == length, "Announced length(%d) != %d.", xbt_dict_length(dict), length);
-
xbt_dict_foreach(dict, cursor, key, data)
effective++;
{
xbt_dict_cursor_t cursor;
char *key;
- XBT_ATTRIB_UNUSED char *key2;
void *data;
int effective = 0;
xbt_dict_foreach(dict, cursor, key, data) {
effective++;
- key2 = xbt_dict_get_key(dict, data);
- xbt_assert(!strcmp(key, key2), "The data was registered under %s instead of %s as expected", key2, key);
+ char* key2 = xbt_dict_get_key(dict, data);
+ xbt_assert(not strcmp(key, key2), "The data was registered under %s instead of %s as expected", key2, key);
}
xbt_test_assert(effective == length, "Effective length(%d) != %d.", effective, length);
}
-xbt_ex_t e;
-xbt_dict_t head = NULL;
-char *data;
-
-static void basic_test(int homogeneous)
+XBT_TEST_UNIT("basic", test_dict_basic, "Basic usage: change, retrieve and traverse homogeneous dicts")
{
- void_f_pvoid_t free_f;
-
xbt_test_add("Traversal the null dictionary");
- traverse(head);
+ traverse(nullptr);
xbt_test_add("Traversal and search the empty dictionary");
- head = homogeneous ? xbt_dict_new_homogeneous(&free) : xbt_dict_new();
+ xbt_dict_t head = xbt_dict_new_homogeneous(&free);
traverse(head);
try {
- debuged_remove(head, "12346");
+ debugged_remove(head, "12346");
}
catch(xbt_ex& e) {
if (e.category != not_found_error)
}
xbt_dict_free(&head);
- free_f = homogeneous ? NULL : &free;
-
xbt_test_add("Traverse the full dictionary");
- fill(&head, homogeneous);
+ head = new_fixture();
count_check_get_key(head, 7);
- debuged_add_ext(head, "toto", "tutu", free_f);
+ debugged_add_ext(head, "toto", "tutu");
search_ext(head, "toto", "tutu");
- debuged_remove(head, "toto");
+ debugged_remove(head, "toto");
search(head, "12a");
traverse(head);
xbt_dict_free(&head);
/* CHANGING */
- fill(&head, homogeneous);
+ head = new_fixture();
count_check_get_key(head, 7);
xbt_test_add("Change 123 to 'Changed 123'");
- xbt_dict_set(head, "123", xbt_strdup("Changed 123"), free_f);
+ xbt_dict_set(head, "123", xbt_strdup("Changed 123"), nullptr);
count_check_get_key(head, 7);
xbt_test_add("Change 123 back to '123'");
- xbt_dict_set(head, "123", xbt_strdup("123"), free_f);
+ xbt_dict_set(head, "123", xbt_strdup("123"), nullptr);
count_check_get_key(head, 7);
xbt_test_add("Change 12a to 'Dummy 12a'");
- xbt_dict_set(head, "12a", xbt_strdup("Dummy 12a"), free_f);
+ xbt_dict_set(head, "12a", xbt_strdup("Dummy 12a"), nullptr);
count_check_get_key(head, 7);
xbt_test_add("Change 12a to '12a'");
- xbt_dict_set(head, "12a", xbt_strdup("12a"), free_f);
+ xbt_dict_set(head, "12a", xbt_strdup("12a"), nullptr);
count_check_get_key(head, 7);
xbt_test_add("Traverse the resulting dictionary");
/* RETRIEVE */
xbt_test_add("Search 123");
- data = (char*) xbt_dict_get(head, "123");
- xbt_test_assert(data);
- xbt_test_assert(!strcmp("123", data));
+ char* data = (char*)xbt_dict_get(head, "123");
+ xbt_test_assert(data && strcmp("123", data) == 0);
search_not_found(head, "Can't be found");
search_not_found(head, "123 Can't be found");
xbt_test_add("Traverse the resulting dictionary");
traverse(head);
- /* xbt_dict_dump(head,(void (*)(void*))&printf); */
-
xbt_test_add("Free the dictionary twice");
xbt_dict_free(&head);
xbt_dict_free(&head);
traverse(head);
}
-XBT_TEST_UNIT("basic_heterogeneous", test_dict_basic_heterogeneous, "Basic usage: change, retrieve, traverse: heterogeneous dict")
-{
- basic_test(0);
-}
-
-XBT_TEST_UNIT("basic_homogeneous", test_dict_basic_homogeneous, "Basic usage: change, retrieve, traverse: homogeneous dict")
+XBT_TEST_UNIT("remove_homogeneous", test_dict_remove, "Removing some values from homogeneous dicts")
{
- basic_test(1);
-}
-
-static void remove_test(int homogeneous)
-{
- fill(&head, homogeneous);
+ xbt_dict_t head = new_fixture();
count(head, 7);
xbt_test_add("Remove non existing data");
try {
- debuged_remove(head, "Does not exist");
+ debugged_remove(head, "Does not exist");
}
catch(xbt_ex& e) {
if (e.category != not_found_error)
xbt_dict_free(&head);
xbt_test_add("Remove each data manually (traversing the resulting dictionary each time)");
- fill(&head, homogeneous);
- debuged_remove(head, "12a");
+ head = new_fixture();
+ debugged_remove(head, "12a");
traverse(head);
count(head, 6);
- debuged_remove(head, "12b");
+ debugged_remove(head, "12b");
traverse(head);
count(head, 5);
- debuged_remove(head, "12");
+ debugged_remove(head, "12");
traverse(head);
count(head, 4);
- debuged_remove(head, "123456");
+ debugged_remove(head, "123456");
traverse(head);
count(head, 3);
try {
- debuged_remove(head, "12346");
+ debugged_remove(head, "12346");
}
catch(xbt_ex& e) {
if (e.category != not_found_error)
xbt_test_exception(e);
traverse(head);
}
- debuged_remove(head, "1234");
+ debugged_remove(head, "1234");
traverse(head);
- debuged_remove(head, "123457");
+ debugged_remove(head, "123457");
traverse(head);
- debuged_remove(head, "123");
+ debugged_remove(head, "123");
traverse(head);
try {
- debuged_remove(head, "12346");
+ debugged_remove(head, "12346");
}
catch(xbt_ex& e) {
if (e.category != not_found_error)
xbt_test_add("Free dict, create new fresh one, and then reset the dict");
xbt_dict_free(&head);
- fill(&head, homogeneous);
+ head = new_fixture();
xbt_dict_reset(head);
count(head, 0);
traverse(head);
xbt_dict_free(&head);
}
-XBT_TEST_UNIT("remove_heterogeneous", test_dict_remove_heterogeneous, "Removing some values: heterogeneous dict")
-{
- remove_test(0);
-}
-
-XBT_TEST_UNIT("remove_homogeneous", test_dict_remove_homogeneous, "Removing some values: homogeneous dict")
+XBT_TEST_UNIT("nulldata", test_dict_nulldata, "nullptr data management")
{
- remove_test(1);
-}
-
-XBT_TEST_UNIT("nulldata", test_dict_nulldata, "NULL data management")
-{
- fill(&head, 1);
+ xbt_dict_t head = new_fixture();
- xbt_test_add("Store NULL under 'null'");
- xbt_dict_set(head, "null", NULL, NULL);
- search_ext(head, "null", NULL);
+ xbt_test_add("Store nullptr under 'null'");
+ xbt_dict_set(head, "null", nullptr, nullptr);
+ search_ext(head, "null", nullptr);
xbt_test_add("Check whether I see it while traversing...");
{
- xbt_dict_cursor_t cursor = NULL;
+ xbt_dict_cursor_t cursor = nullptr;
char *key;
int found = 0;
+ char* data;
xbt_dict_foreach(head, cursor, key, data) {
- if (!key || !data || strcmp(key, data)) {
+ if (not key || not data || strcmp(key, data)) {
xbt_test_log("Seen: %s->%s", key, data);
} else {
xbt_test_log("Seen: %s", key);
}
- if (!strcmp(key, "null"))
+ if (key && strcmp(key, "null") == 0)
found = 1;
}
- xbt_test_assert(found, "the key 'null', associated to NULL is not found");
+ xbt_test_assert(found, "the key 'null', associated to nullptr is not found");
}
xbt_dict_free(&head);
}
XBT_TEST_UNIT("crash", test_dict_crash, "Crash test")
{
- xbt_dict_t head = NULL;
- int i, j, k;
- char *key;
-
- srand((unsigned int) time(NULL));
+ srand((unsigned int) time(nullptr));
- for (i = 0; i < 10; i++) {
+ for (int i = 0; i < 10; i++) {
xbt_test_add("CRASH test number %d (%d to go)", i + 1, 10 - i - 1);
xbt_test_log("Fill the struct, count its elems and frees the structure");
xbt_test_log("using 1000 elements with %d chars long randomized keys.", SIZEOFKEY);
- head = xbt_dict_new();
- /* if (i%10) printf("."); else printf("%d",i/10); fflush(stdout); */
- for (j = 0; j < 1000; j++) {
- char *data = NULL;
- key = (char*) xbt_malloc(SIZEOFKEY);
+ xbt_dict_t head = xbt_dict_new_homogeneous(free);
+ for (int j = 0; j < 1000; j++) {
+ char* data = nullptr;
+ char* key = (char*)xbt_malloc(SIZEOFKEY);
do {
- for (k = 0; k < SIZEOFKEY - 1; k++)
+ for (int k = 0; k < SIZEOFKEY - 1; k++)
key[k] = rand() % ('z' - 'a') + 'a';
- key[k] = '\0';
- /* printf("[%d %s]\n",j,key); */
+ key[SIZEOFKEY - 1] = '\0';
data = (char*) xbt_dict_get_or_null(head, key);
- } while (data != NULL);
+ } while (data != nullptr);
- xbt_dict_set(head, key, key, &free);
+ xbt_dict_set(head, key, key, nullptr);
data = (char*) xbt_dict_get(head, key);
- xbt_test_assert(!strcmp(key, data), "Retrieved value (%s) != Injected value (%s)", key, data);
+ xbt_test_assert(not strcmp(key, data), "Retrieved value (%s) != Injected value (%s)", key, data);
count(head, j + 1);
}
- /* xbt_dict_dump(head,(void (*)(void*))&printf); */
traverse(head);
xbt_dict_free(&head);
xbt_dict_free(&head);
}
- head = xbt_dict_new();
+ xbt_dict_t head = xbt_dict_new_homogeneous(&free);
xbt_test_add("Fill %d elements, with keys being the number of element", NB_ELM);
- for (j = 0; j < NB_ELM; j++) {
- /* if (!(j%1000)) { printf("."); fflush(stdout); } */
- key = (char*) xbt_malloc(10);
+ for (int j = 0; j < NB_ELM; j++) {
+ char* key = (char*)xbt_malloc(10);
snprintf(key,10, "%d", j);
- xbt_dict_set(head, key, key, &free);
+ xbt_dict_set(head, key, key, nullptr);
}
- /*xbt_dict_dump(head,(void (*)(void*))&printf); */
xbt_test_add("Count the elements (retrieving the key and data for each)");
- i = countelems(head);
- xbt_test_log("There is %d elements", i);
+ xbt_test_log("There is %d elements", countelems(head));
xbt_test_add("Search my %d elements 20 times", NB_ELM);
- key = (char*) xbt_malloc(10);
- for (i = 0; i < 20; i++) {
- void *data;
- /* if (i%10) printf("."); else printf("%d",i/10); fflush(stdout); */
- for (j = 0; j < NB_ELM; j++) {
+ char* key = (char*)xbt_malloc(10);
+ for (int i = 0; i < 20; i++) {
+ for (int j = 0; j < NB_ELM; j++) {
snprintf(key,10, "%d", j);
- data = xbt_dict_get(head, key);
- xbt_test_assert(!strcmp(key, (char *) data), "with get, key=%s != data=%s", key, (char *) data);
+ void* data = xbt_dict_get(head, key);
+ xbt_test_assert(not strcmp(key, (char*)data), "with get, key=%s != data=%s", key, (char*)data);
data = xbt_dict_get_ext(head, key, strlen(key));
- xbt_test_assert(!strcmp(key, (char *) data), "with get_ext, key=%s != data=%s", key, (char *) data);
+ xbt_test_assert(not strcmp(key, (char*)data), "with get_ext, key=%s != data=%s", key, (char*)data);
}
}
free(key);
xbt_test_add("Remove my %d elements", NB_ELM);
key = (char*) xbt_malloc(10);
- for (j = 0; j < NB_ELM; j++) {
- /* if (!(j%10000)) printf("."); fflush(stdout); */
+ for (int j = 0; j < NB_ELM; j++) {
snprintf(key,10, "%d", j);
xbt_dict_remove(head, key);
}
free(key);
- xbt_test_add("Free the structure (twice)");
+ xbt_test_add("Free the object (twice)");
xbt_dict_free(&head);
xbt_dict_free(&head);
}
XBT_TEST_UNIT("ext", test_dict_int, "Test dictionnary with int keys")
{
- xbt_dict_t dict = xbt_dict_new();
+ xbt_dict_t dict = xbt_dict_new_homogeneous(nullptr);
int count = 500;
xbt_test_add("Insert elements");
- int i;
- for (i = 0; i < count; ++i)
- xbt_dict_set_ext(dict, (char*) &i, sizeof(i), (void*) (intptr_t) i, NULL);
+ for (int i = 0; i < count; ++i)
+ xbt_dict_set_ext(dict, (char*) &i, sizeof(i), (void*) (intptr_t) i, nullptr);
xbt_test_assert(xbt_dict_size(dict) == (unsigned) count, "Bad number of elements in the dictionnary");
xbt_test_add("Check elements");
- for (i = 0; i < count; ++i) {
+ for (int i = 0; i < count; ++i) {
int res = (int) (intptr_t) xbt_dict_get_ext(dict, (char*) &i, sizeof(i));
xbt_test_assert(xbt_dict_size(dict) == (unsigned) count, "Unexpected value at index %i, expected %i but was %i", i, i, res);
}