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////////////////////////////////////////////////////////////////////////////////
/// @brief test suite for TRI_associative_multi_pointer_t
///
/// @file
///
/// DISCLAIMER
///
/// Copyright 2012 triagens GmbH, Cologne, Germany
///
/// Licensed 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.
///
/// Copyright holder is triAGENS GmbH, Cologne, Germany
///
/// @author Max Neunhoeffer
/// @author Copyright 2014, triAGENS GmbH, Cologne, Germany
////////////////////////////////////////////////////////////////////////////////
#include "Basics/Common.h"
#include "catch.hpp"
#include "Basics/AssocMulti.h"
#include "Basics/hashes.h"
#include "Basics/fasthash.h"
#include "Basics/tri-strings.h"
#include "Basics/conversions.h"
using namespace std;
// -----------------------------------------------------------------------------
// --SECTION-- private macros
// -----------------------------------------------------------------------------
#define ELEMENT(name, v, k) \
data_container_t name; \
name.key = k; \
name.value = v;
struct data_container_t {
int value;
int key;
data_container_t () : value(0), key(0) {};
data_container_t (int key, int value) : value(value), key(key) {};
};
struct AssocMultiTestHelper {
static inline uint64_t HashKey(void const* e) {
int const* key = (int const*) e;
return fasthash64(key, sizeof(int), 0x12345678);
}
static inline uint64_t HashElement(void const* e,
bool byKey) {
data_container_t const* element = (data_container_t const*) e;
if (byKey) {
return fasthash64(&element->key, sizeof(element->key), 0x12345678);
}
else {
return fasthash64(&element->value, sizeof(element->value), 0x12345678);
}
}
bool IsEqualKeyElement(void* userData,
void const* k,
void const* r) const {
int const* key = (int const*) k;
data_container_t const* element = (data_container_t const*) r;
return *key == element->key;
}
bool IsEqualElementElement(void* userData,
void const* l,
void const* r) const {
data_container_t const* left = (data_container_t const*) l;
data_container_t const* right = (data_container_t const*) r;
return left->value == right->value;
}
bool IsEqualElementElementByKey(void* userData,
void const* l,
void const* r) const {
data_container_t const* left = (data_container_t const*) l;
data_container_t const* right = (data_container_t const*) r;
return left->key == right->key;
}
};
#define INIT_MULTI \
arangodb::basics::AssocMulti<void, void*, uint32_t, false, AssocMultiTestHelper> a1((AssocMultiTestHelper()));
// -----------------------------------------------------------------------------
// --SECTION-- private constants
// -----------------------------------------------------------------------------
// -----------------------------------------------------------------------------
// --SECTION-- test suite
// -----------------------------------------------------------------------------
////////////////////////////////////////////////////////////////////////////////
/// @brief setup
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
/// @brief test initialization
////////////////////////////////////////////////////////////////////////////////
TEST_CASE("associative multi pointer nohashcache", "[associative]") {
SECTION("tst_init") {
INIT_MULTI
CHECK((uint32_t) 0 == a1.size());
}
////////////////////////////////////////////////////////////////////////////////
/// @brief test unique insertion
////////////////////////////////////////////////////////////////////////////////
SECTION("tst_insert_few") {
INIT_MULTI
void* r = nullptr;
ELEMENT(e1, 1, 123);
CHECK(r == a1.insert(nullptr, &e1, true, false));
CHECK((uint32_t) 1 == a1.size());
CHECK(&e1 == a1.lookup(nullptr, &e1));
CHECK(&e1 == a1.remove(nullptr, &e1));
CHECK((uint32_t) 0 == a1.size());
CHECK(r == a1.lookup(nullptr, &e1));
}
// Note MODULUS must be a divisor of NUMBER_OF_ELEMENTS
// and NUMBER_OF_ELEMENTS must be a multiple of 3.
#define NUMBER_OF_ELEMENTS 3000
#define MODULUS 10
SECTION("tst_insert_delete_many") {
INIT_MULTI
unsigned int i, j;
ELEMENT(e, 0, 0);
vector<data_container_t*> v;
data_container_t* n = nullptr;
data_container_t* p;
data_container_t* one_more;
// Put in some data:
for (i = 0;i < NUMBER_OF_ELEMENTS;i++) {
p = new data_container_t(i % MODULUS, i);
v.push_back(p);
CHECK(n == a1.insert(nullptr, p, true, false));
}
one_more = new data_container_t(NUMBER_OF_ELEMENTS % MODULUS,
NUMBER_OF_ELEMENTS);
// Now check it is there (by element):
for (i = 0;i < NUMBER_OF_ELEMENTS;i++) {
p = static_cast<data_container_t*>(a1.lookup(nullptr, v[i]));
CHECK(p == v[i]);
}
// This should not be there:
p = static_cast<data_container_t*>(a1.lookup(nullptr, one_more));
CHECK(n == p);
// Now check by key:
std::vector<void*>* res = nullptr;
for (i = 0;i < MODULUS;i++) {
int* space = new int[NUMBER_OF_ELEMENTS / MODULUS]();
res = a1.lookupByKey(nullptr, &i);
CHECK((int) res->size() ==
(int) (NUMBER_OF_ELEMENTS / MODULUS));
// Now check its contents:
for (j = 0; j < res->size(); j++) {
data_container_t* q = static_cast<data_container_t*>(res->at(j));
CHECK((int) (q->value % MODULUS) == (int) i);
CHECK(space[(q->value - i) / MODULUS] == 0);
space[(q->value - i) / MODULUS] = 1;
}
delete[] space;
delete res;
}
// Delete some data:
for (i = 0;i < v.size();i += 3) {
CHECK(v[i] == a1.remove(nullptr, v[i]));
}
for (i = 0;i < v.size();i += 3) {
CHECK(n == a1.remove(nullptr, v[i]));
}
// Now check which are there (by element):
for (i = 0;i < NUMBER_OF_ELEMENTS;i++) {
p = static_cast<data_container_t*>(a1.lookup(nullptr, v[i]));
if (i % 3 == 0) {
CHECK(p ==n);
}
else {
CHECK(p ==v[i]);
}
}
// This should not be there:
p = static_cast<data_container_t*>(a1.lookup(nullptr, one_more));
CHECK(n == p);
// Delete some more:
for (i = 1;i < v.size();i += 3) {
CHECK(v[i] == a1.remove(nullptr, v[i]));
}
for (i = 1;i < v.size();i += 3) {
CHECK(n == a1.remove(nullptr, v[i]));
}
// Now check which are there (by element):
for (i = 0;i < NUMBER_OF_ELEMENTS;i++) {
p = static_cast<data_container_t*>(a1.lookup(nullptr, v[i]));
if (i % 3 == 2) {
CHECK(p ==v[i]);
}
else {
CHECK(p ==n);
}
}
// This should not be there:
p = static_cast<data_container_t*>(a1.lookup(nullptr, one_more));
CHECK(n == p);
// Delete the rest:
for (i = 2;i < v.size();i += 3) {
CHECK(v[i] == a1.remove(nullptr, v[i]));
}
for (i = 2;i < v.size();i += 3) {
CHECK(n == a1.remove(nullptr, v[i]));
}
// Now check which are there (by element):
for (i = 0;i < NUMBER_OF_ELEMENTS;i++) {
p = static_cast<data_container_t*>(a1.lookup(nullptr, v[i]));
CHECK(p ==n);
}
// This should not be there:
p = static_cast<data_container_t*>(a1.lookup(nullptr, one_more));
CHECK(n == p);
// Pull down data again:
for (i = 0;i < NUMBER_OF_ELEMENTS;i++) {
delete v[i];
}
v.clear();
delete one_more;
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief generate tests
////////////////////////////////////////////////////////////////////////////////
// Local Variables:
// mode: outline-minor
// outline-regexp: "^\\(/// @brief\\|/// {@inheritDoc}\\|/// @addtogroup\\|// --SECTION--\\|/// @\\}\\)"
// End:
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