tree
hwwang 5 months ago
parent dcfab6f1c0
commit f766d17fb0

@ -1,43 +1,53 @@
import unittest,importlib,BeautifulReport,cffi import unittest,importlib,BeautifulReport
import cffi
def load(): def load():
src = open("add.c").read() with open("/home/hai/sledge-serverless-framework/runtime/include/hash.h", "r") as f:
inc = open("add.h").read() inc = ""
for line in f:
if not line.strip().startswith('#'):
inc += line
src = open("/home/hai/sledge-serverless-framework/runtime/Utest_py/hash.c").read()
builder = cffi.FFI() builder = cffi.FFI()
builder.cdef(inc) builder.cdef(inc)
builder.set_source("addLib",src) builder.set_source("hashlib",src)
builder.compile() builder.compile()
md = importlib.import_module("addLib") md = importlib.import_module("hashlib")
return md.lib return md.lib
md = load() md = load()
class HashTableTestCase(unittest.TestCase):
class AddTestCase(unittest.TestCase):
def test_case1(self): def test_case1(self):
''' '''
第1个case 测试添加和查找功能
:return:
''' '''
self.assertEqual(md.addition(1,2),1+2) table = md.create_table()
print('md.addition(1,2),1+2') md.add_item(table, b"key1", "Hello World")
value = md.find_value(table, b"key1")
self.assertEqual(value, "Hello World")
print('Value for "key1":', value)
def test_case2(self): def test_case2(self):
''' '''
第2个case 测试查找不存在的键
:return:
''' '''
self.assertEqual(md.addition(1,5),1+2) table = md.create_table()
value = md.find_value(table, b"nonexistent")
self.assertIsNone(value)
print('Value for "nonexistent":', value)
print('md.addition(1,5),1+2') def test_case3(self):
# 确保每个测试后表被释放
md.free_table(self.table)
sut = unittest.TestSuite() sut = unittest.TestSuite()
sut.addTest(unittest(AddTestCase)) sut.addTest(unittest.makeSuite(HashTableTestCase))
run = BeautifulReport.BeautifulReport(sut) run = BeautifulReport.BeautifulReport(sut)
run.report(filename="test.html",description="add单元测试") run.report(filename="test.html",description="单元测试")

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// hash_test.c
#include "../include/hash.h"
#include <stdio.h>
typedef struct test
{
char *name;
}test;
int main(int argc, char *argv[]) {
test *test1 = malloc(sizeof(test));
test *test2 = malloc(sizeof(test));
test1->name = "test1";
test2->name = "test2";
HashTable *myTable = create_table();
add_item(myTable, "key1", test1);
add_item(myTable, "key2", test2);
char *input = argv[1];
test *value = find_value(myTable, input);
if (value) {
printf("Test Passed: %s\n", value->name);
} else {
printf("Test Failed: Key not found.\n");
}
remove_item(myTable, "key1");
printf("remove key1.\n");
test *value2 = find_value(myTable, input);
if (value2) {
printf("Test Passed: %s\n", value2->name);
} else {
printf("Test Failed: Key not found.\n");
}
add_item(myTable, "key1", test1);
test *value4 = find_value(myTable, "key1");
if (value4) {
printf("Test Passed: %s\n", value4->name);
} else {
printf("Test Failed: Key not found.\n");
}
test *value3 = find_value(myTable, "key2");
if (value3) {
printf("Test Passed: %s\n", value3->name);
} else {
printf("Test Failed: Key not found.\n");
}
free(test1);
free(test2);
free_table(myTable);
return 0;
}

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#ifndef HASH_H
#define HASH_H
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <pthread.h>
#define TABLE_SIZE 32 // the size of hash table
#define MAX_KEY_LENGTH 32 // the maximum length of key
typedef struct {
char key[MAX_KEY_LENGTH];
void *value;
int is_deleted; // Flag to mark items as deleted
} HashItem;
typedef struct {
HashItem **items;
pthread_mutex_t lock;
} HashTable;
static inline unsigned long
hash_function(const char *str) {
unsigned long i = 0;
for (int j = 0; str[j]; j++)
i += str[j];
return i % TABLE_SIZE;
}
static inline HashTable
*create_table() {
HashTable *table = (HashTable *)malloc(sizeof(HashTable));
if (!table) {
fprintf(stderr, "Failed to allocate memory for hash table struct.\n");
return NULL;
}
table->items = (HashItem **)malloc(sizeof(HashItem*) * TABLE_SIZE);
if (!table->items) {
fprintf(stderr, "Failed to allocate memory for items.\n");
free(table); // Free the table if item allocation fails
return NULL;
}
pthread_mutex_init(&table->lock, NULL);
for (int i = 0; i < TABLE_SIZE; i++) {
table->items[i] = NULL;
}
return table;
}
static inline void
add_item(HashTable *table, const char *key, void *value) {
assert(table != NULL);
assert(key != NULL);
assert(value != NULL);
pthread_mutex_lock(&table->lock);
unsigned long index = hash_function(key);
HashItem *item = malloc(sizeof(HashItem));
if (!item) {
fprintf(stderr, "Failed to allocate memory for a new item.\n");
pthread_mutex_unlock(&table->lock);
return;
}
strcpy(item->key, key);
item->value = value;
item->is_deleted = 0;
while (table->items[index] != NULL && !table->items[index]->is_deleted && strcmp(table->items[index]->key, key) != 0) {
index = (index + 1) % TABLE_SIZE;
}
free(table->items[index]); // Free the existing item if overwriting
table->items[index] = item;
pthread_mutex_unlock(&table->lock);
}
static inline void
remove_item(HashTable *table, const char *key) {
assert(table != NULL);
assert(key != NULL);
pthread_mutex_lock(&table->lock);
unsigned long index = hash_function(key);
while (table->items[index] != NULL && strcmp(table->items[index]->key, key) != 0) {
index = (index + 1) % TABLE_SIZE;
}
if (table->items[index] != NULL) {
table->items[index]->is_deleted = 1; // Mark as deleted
}
pthread_mutex_unlock(&table->lock);
}
static inline void
*find_value(HashTable *table, const char *key) {
assert(table != NULL);
assert(key != NULL);
pthread_mutex_lock(&table->lock);
unsigned long index = hash_function(key);
int count = 0;
while (table->items[index] != NULL && count < TABLE_SIZE && (table->items[index]->is_deleted || strcmp(table->items[index]->key, key) != 0)) {
index = (index + 1) % TABLE_SIZE;
count++;
}
if (table->items[index] == NULL || table->items[index]->is_deleted)
{
pthread_mutex_unlock(&table->lock);
return NULL;
}
else {
pthread_mutex_unlock(&table->lock);
return table->items[index]->value;
}
}
static inline void
free_table(HashTable *table) {
assert(table != NULL);
pthread_mutex_lock(&table->lock);
for (int i = 0; i < TABLE_SIZE; i++) {
if (table->items[i] != NULL) {
free(table->items[i]); // Free each item
}
}
free(table->items);
free(table);
pthread_mutex_unlock(&table->lock);
pthread_mutex_destroy(&table->lock);
}
#endif
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