cef/tests/unittests/values_unittest.cc

1378 lines
46 KiB
C++

// Copyright (c) 2013 The Chromium Embedded Framework Authors. All rights
// reserved. Use of this source code is governed by a BSD-style license that
// can be found in the LICENSE file.
// Include this first to avoid type conflicts with CEF headers.
#include "tests/unittests/chromium_includes.h"
#include "include/cef_task.h"
#include "include/cef_values.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "tests/unittests/test_handler.h"
#include "tests/unittests/test_util.h"
namespace {
// Dictionary test keys.
const char* kNullKey = "null_key";
const char* kBoolKey = "bool_key";
const char* kIntKey = "int_key";
const char* kDoubleKey = "double_key";
const char* kStringKey = "string_key";
const char* kBinaryKey = "binary_key";
const char* kDictionaryKey = "dict_key";
const char* kListKey = "list_key";
// List test indexes.
enum {
kNullIndex = 0,
kBoolIndex,
kIntIndex,
kDoubleIndex,
kStringIndex,
kBinaryIndex,
kDictionaryIndex,
kListIndex,
};
// Dictionary/list test values.
const bool kBoolValue = true;
const int kIntValue = 12;
const double kDoubleValue = 4.5432;
const char* kStringValue = "My string value";
// BINARY TEST HELPERS
// Test a binary value.
void TestBinary(CefRefPtr<CefBinaryValue> value, char* data, size_t data_size) {
// Testing requires strings longer than 15 characters.
EXPECT_GT(data_size, 15U);
EXPECT_EQ(data_size, value->GetSize());
char* buff = new char[data_size+1];
char old_char;
// Test full read.
memset(buff, 0, data_size+1);
EXPECT_EQ(data_size, value->GetData(buff, data_size, 0));
EXPECT_TRUE(!strcmp(buff, data));
// Test partial read with offset.
memset(buff, 0, data_size+1);
old_char = data[15];
data[15] = 0;
EXPECT_EQ(10U, value->GetData(buff, 10, 5));
EXPECT_TRUE(!strcmp(buff, data+5));
data[15] = old_char;
// Test that changes to the original data have no effect.
memset(buff, 0, data_size+1);
old_char = data[0];
data[0] = '.';
EXPECT_EQ(1U, value->GetData(buff, 1, 0));
EXPECT_EQ(old_char, buff[0]);
data[0] = old_char;
// Test copy.
CefRefPtr<CefBinaryValue> copy = value->Copy();
TestBinaryEqual(copy, value);
delete [] buff;
}
// Used to test access of binary data on a different thread.
class BinaryTask : public CefTask {
public:
BinaryTask(CefRefPtr<CefBinaryValue> value, char* data, size_t data_size)
: value_(value),
data_(data),
data_size_(data_size) {}
void Execute() override {
TestBinary(value_, data_, data_size_);
}
private:
CefRefPtr<CefBinaryValue> value_;
char* data_;
size_t data_size_;
IMPLEMENT_REFCOUNTING(BinaryTask);
};
// DICTIONARY TEST HELPERS
// Test dictionary null value.
void TestDictionaryNull(CefRefPtr<CefDictionaryValue> value) {
EXPECT_FALSE(value->HasKey(kNullKey));
EXPECT_TRUE(value->SetNull(kNullKey));
EXPECT_TRUE(value->HasKey(kNullKey));
EXPECT_EQ(VTYPE_NULL, value->GetType(kNullKey));
}
// Test dictionary bool value.
void TestDictionaryBool(CefRefPtr<CefDictionaryValue> value) {
EXPECT_FALSE(value->HasKey(kBoolKey));
EXPECT_TRUE(value->SetBool(kBoolKey, kBoolValue));
EXPECT_TRUE(value->HasKey(kBoolKey));
EXPECT_EQ(VTYPE_BOOL, value->GetType(kBoolKey));
EXPECT_EQ(kBoolValue, value->GetBool(kBoolKey));
}
// Test dictionary int value.
void TestDictionaryInt(CefRefPtr<CefDictionaryValue> value) {
EXPECT_FALSE(value->HasKey(kIntKey));
EXPECT_TRUE(value->SetInt(kIntKey, kIntValue));
EXPECT_TRUE(value->HasKey(kIntKey));
EXPECT_EQ(VTYPE_INT, value->GetType(kIntKey));
EXPECT_EQ(kIntValue, value->GetInt(kIntKey));
}
// Test dictionary double value.
void TestDictionaryDouble(CefRefPtr<CefDictionaryValue> value) {
EXPECT_FALSE(value->HasKey(kDoubleKey));
EXPECT_TRUE(value->SetDouble(kDoubleKey, kDoubleValue));
EXPECT_TRUE(value->HasKey(kDoubleKey));
EXPECT_EQ(VTYPE_DOUBLE, value->GetType(kDoubleKey));
EXPECT_EQ(kDoubleValue, value->GetDouble(kDoubleKey));
}
// Test dictionary string value.
void TestDictionaryString(CefRefPtr<CefDictionaryValue> value) {
EXPECT_FALSE(value->HasKey(kStringKey));
EXPECT_TRUE(value->SetString(kStringKey, kStringValue));
EXPECT_TRUE(value->HasKey(kStringKey));
EXPECT_EQ(VTYPE_STRING, value->GetType(kStringKey));
EXPECT_EQ(kStringValue, value->GetString(kStringKey).ToString());
}
// Test dictionary binary value.
void TestDictionaryBinary(CefRefPtr<CefDictionaryValue> value,
char* binary_data, size_t binary_data_size,
CefRefPtr<CefBinaryValue>& binary_value) {
binary_value = CefBinaryValue::Create(binary_data, binary_data_size);
EXPECT_TRUE(binary_value.get());
EXPECT_TRUE(binary_value->IsValid());
EXPECT_FALSE(binary_value->IsOwned());
EXPECT_FALSE(value->HasKey(kBinaryKey));
EXPECT_TRUE(value->SetBinary(kBinaryKey, binary_value));
EXPECT_FALSE(binary_value->IsValid()); // Value should be detached
EXPECT_TRUE(value->HasKey(kBinaryKey));
EXPECT_EQ(VTYPE_BINARY, value->GetType(kBinaryKey));
binary_value = value->GetBinary(kBinaryKey);
EXPECT_TRUE(binary_value.get());
EXPECT_TRUE(binary_value->IsValid());
EXPECT_TRUE(binary_value->IsOwned());
TestBinary(binary_value, binary_data, binary_data_size);
}
// Test dictionary dictionary value.
void TestDictionaryDictionary(CefRefPtr<CefDictionaryValue> value,
CefRefPtr<CefDictionaryValue>& dictionary_value) {
dictionary_value = CefDictionaryValue::Create();
EXPECT_TRUE(dictionary_value.get());
EXPECT_TRUE(dictionary_value->IsValid());
EXPECT_FALSE(dictionary_value->IsOwned());
EXPECT_FALSE(dictionary_value->IsReadOnly());
EXPECT_TRUE(dictionary_value->SetInt(kIntKey, kIntValue));
EXPECT_EQ(1U, dictionary_value->GetSize());
EXPECT_FALSE(value->HasKey(kDictionaryKey));
EXPECT_TRUE(value->SetDictionary(kDictionaryKey, dictionary_value));
EXPECT_FALSE(dictionary_value->IsValid()); // Value should be detached
EXPECT_TRUE(value->HasKey(kDictionaryKey));
EXPECT_EQ(VTYPE_DICTIONARY, value->GetType(kDictionaryKey));
dictionary_value = value->GetDictionary(kDictionaryKey);
EXPECT_TRUE(dictionary_value.get());
EXPECT_TRUE(dictionary_value->IsValid());
EXPECT_TRUE(dictionary_value->IsOwned());
EXPECT_FALSE(dictionary_value->IsReadOnly());
EXPECT_EQ(1U, dictionary_value->GetSize());
EXPECT_EQ(kIntValue, dictionary_value->GetInt(kIntKey));
}
// Test dictionary list value.
void TestDictionaryList(CefRefPtr<CefDictionaryValue> value,
CefRefPtr<CefListValue>& list_value) {
list_value = CefListValue::Create();
EXPECT_TRUE(list_value.get());
EXPECT_TRUE(list_value->IsValid());
EXPECT_FALSE(list_value->IsOwned());
EXPECT_FALSE(list_value->IsReadOnly());
EXPECT_TRUE(list_value->SetInt(0, kIntValue));
EXPECT_EQ(1U, list_value->GetSize());
EXPECT_FALSE(value->HasKey(kListKey));
EXPECT_TRUE(value->SetList(kListKey, list_value));
EXPECT_FALSE(list_value->IsValid()); // Value should be detached
EXPECT_TRUE(value->HasKey(kListKey));
EXPECT_EQ(VTYPE_LIST, value->GetType(kListKey));
list_value = value->GetList(kListKey);
EXPECT_TRUE(list_value.get());
EXPECT_TRUE(list_value->IsValid());
EXPECT_TRUE(list_value->IsOwned());
EXPECT_FALSE(list_value->IsReadOnly());
EXPECT_EQ(1U, list_value->GetSize());
EXPECT_EQ(kIntValue, list_value->GetInt(0));
}
// Test dictionary value.
void TestDictionary(CefRefPtr<CefDictionaryValue> value,
char* binary_data, size_t binary_data_size) {
CefRefPtr<CefBinaryValue> binary_value;
CefRefPtr<CefDictionaryValue> dictionary_value;
CefRefPtr<CefListValue> list_value;
// Test the size.
EXPECT_EQ(0U, value->GetSize());
TestDictionaryNull(value);
TestDictionaryBool(value);
TestDictionaryInt(value);
TestDictionaryDouble(value);
TestDictionaryString(value);
TestDictionaryBinary(value, binary_data, binary_data_size, binary_value);
TestDictionaryDictionary(value, dictionary_value);
TestDictionaryList(value, list_value);
// Test the size.
EXPECT_EQ(8U, value->GetSize());
// Test copy.
CefRefPtr<CefDictionaryValue> copy = value->Copy(false);
TestDictionaryEqual(value, copy);
// Test removal.
EXPECT_TRUE(value->Remove(kNullKey));
EXPECT_FALSE(value->HasKey(kNullKey));
EXPECT_TRUE(value->Remove(kBoolKey));
EXPECT_FALSE(value->HasKey(kBoolKey));
EXPECT_TRUE(value->Remove(kIntKey));
EXPECT_FALSE(value->HasKey(kIntKey));
EXPECT_TRUE(value->Remove(kDoubleKey));
EXPECT_FALSE(value->HasKey(kDoubleKey));
EXPECT_TRUE(value->Remove(kStringKey));
EXPECT_FALSE(value->HasKey(kStringKey));
EXPECT_TRUE(value->Remove(kBinaryKey));
EXPECT_FALSE(value->HasKey(kBinaryKey));
EXPECT_FALSE(binary_value->IsValid()); // Value should be detached
EXPECT_TRUE(value->Remove(kDictionaryKey));
EXPECT_FALSE(value->HasKey(kDictionaryKey));
EXPECT_FALSE(dictionary_value->IsValid()); // Value should be detached
EXPECT_TRUE(value->Remove(kListKey));
EXPECT_FALSE(value->HasKey(kListKey));
EXPECT_FALSE(list_value->IsValid()); // Value should be detached
// Test the size.
EXPECT_EQ(0U, value->GetSize());
// Re-add some values.
TestDictionaryNull(value);
TestDictionaryBool(value);
TestDictionaryDictionary(value, dictionary_value);
// Test the size.
EXPECT_EQ(3U, value->GetSize());
// Clear the values.
EXPECT_TRUE(value->Clear());
EXPECT_EQ(0U, value->GetSize());
EXPECT_FALSE(dictionary_value->IsValid()); // Value should be detached
}
// Used to test access of dictionary data on a different thread.
class DictionaryTask : public CefTask {
public:
DictionaryTask(CefRefPtr<CefDictionaryValue> value, char* binary_data,
size_t binary_data_size)
: value_(value),
binary_data_(binary_data),
binary_data_size_(binary_data_size) {}
void Execute() override {
TestDictionary(value_, binary_data_, binary_data_size_);
}
private:
CefRefPtr<CefDictionaryValue> value_;
char* binary_data_;
size_t binary_data_size_;
IMPLEMENT_REFCOUNTING(DictionaryTask);
};
// LIST TEST HELPERS
// Test list null value.
void TestListNull(CefRefPtr<CefListValue> value, int index) {
CefValueType type = value->GetType(index);
EXPECT_TRUE(type == VTYPE_INVALID || type == VTYPE_NULL);
EXPECT_TRUE(value->SetNull(index));
EXPECT_EQ(VTYPE_NULL, value->GetType(index));
}
// Test list bool value.
void TestListBool(CefRefPtr<CefListValue> value, int index) {
CefValueType type = value->GetType(index);
EXPECT_TRUE(type == VTYPE_INVALID || type == VTYPE_NULL);
EXPECT_TRUE(value->SetBool(index, kBoolValue));
EXPECT_EQ(VTYPE_BOOL, value->GetType(index));
EXPECT_EQ(kBoolValue, value->GetBool(index));
}
// Test list int value.
void TestListInt(CefRefPtr<CefListValue> value, int index) {
CefValueType type = value->GetType(index);
EXPECT_TRUE(type == VTYPE_INVALID || type == VTYPE_NULL);
EXPECT_TRUE(value->SetInt(index, kIntValue));
EXPECT_EQ(VTYPE_INT, value->GetType(index));
EXPECT_EQ(kIntValue, value->GetInt(index));
}
// Test list double value.
void TestListDouble(CefRefPtr<CefListValue> value, int index) {
CefValueType type = value->GetType(index);
EXPECT_TRUE(type == VTYPE_INVALID || type == VTYPE_NULL);
EXPECT_TRUE(value->SetDouble(index, kDoubleValue));
EXPECT_EQ(VTYPE_DOUBLE, value->GetType(index));
EXPECT_EQ(kDoubleValue, value->GetDouble(index));
}
// Test list string value.
void TestListString(CefRefPtr<CefListValue> value, int index) {
CefValueType type = value->GetType(index);
EXPECT_TRUE(type == VTYPE_INVALID || type == VTYPE_NULL);
EXPECT_TRUE(value->SetString(index, kStringValue));
EXPECT_EQ(VTYPE_STRING, value->GetType(index));
EXPECT_EQ(kStringValue, value->GetString(index).ToString());
}
// Test list binary value.
void TestListBinary(CefRefPtr<CefListValue> value, int index,
char* binary_data, size_t binary_data_size,
CefRefPtr<CefBinaryValue>& binary_value) {
binary_value = CefBinaryValue::Create(binary_data, binary_data_size);
EXPECT_TRUE(binary_value.get());
EXPECT_TRUE(binary_value->IsValid());
EXPECT_FALSE(binary_value->IsOwned());
CefValueType type = value->GetType(index);
EXPECT_TRUE(type == VTYPE_INVALID || type == VTYPE_NULL);
EXPECT_TRUE(value->SetBinary(index, binary_value));
EXPECT_FALSE(binary_value->IsValid()); // Value should be detached
EXPECT_EQ(VTYPE_BINARY, value->GetType(index));
binary_value = value->GetBinary(index);
EXPECT_TRUE(binary_value.get());
EXPECT_TRUE(binary_value->IsValid());
EXPECT_TRUE(binary_value->IsOwned());
TestBinary(binary_value, binary_data, binary_data_size);
}
// Test list dictionary value.
void TestListDictionary(CefRefPtr<CefListValue> value, int index,
CefRefPtr<CefDictionaryValue>& dictionary_value) {
dictionary_value = CefDictionaryValue::Create();
EXPECT_TRUE(dictionary_value.get());
EXPECT_TRUE(dictionary_value->IsValid());
EXPECT_FALSE(dictionary_value->IsOwned());
EXPECT_FALSE(dictionary_value->IsReadOnly());
EXPECT_TRUE(dictionary_value->SetInt(kIntKey, kIntValue));
EXPECT_EQ(1U, dictionary_value->GetSize());
CefValueType type = value->GetType(index);
EXPECT_TRUE(type == VTYPE_INVALID || type == VTYPE_NULL);
EXPECT_TRUE(value->SetDictionary(index, dictionary_value));
EXPECT_FALSE(dictionary_value->IsValid()); // Value should be detached
EXPECT_EQ(VTYPE_DICTIONARY, value->GetType(index));
dictionary_value = value->GetDictionary(index);
EXPECT_TRUE(dictionary_value.get());
EXPECT_TRUE(dictionary_value->IsValid());
EXPECT_TRUE(dictionary_value->IsOwned());
EXPECT_FALSE(dictionary_value->IsReadOnly());
EXPECT_EQ(1U, dictionary_value->GetSize());
EXPECT_EQ(kIntValue, dictionary_value->GetInt(kIntKey));
}
// Test list list value.
void TestListList(CefRefPtr<CefListValue> value, int index,
CefRefPtr<CefListValue>& list_value) {
list_value = CefListValue::Create();
EXPECT_TRUE(list_value.get());
EXPECT_TRUE(list_value->IsValid());
EXPECT_FALSE(list_value->IsOwned());
EXPECT_FALSE(list_value->IsReadOnly());
EXPECT_TRUE(list_value->SetInt(0, kIntValue));
EXPECT_EQ(1U, list_value->GetSize());
CefValueType type = value->GetType(index);
EXPECT_TRUE(type == VTYPE_INVALID || type == VTYPE_NULL);
EXPECT_TRUE(value->SetList(index, list_value));
EXPECT_FALSE(list_value->IsValid()); // Value should be detached
EXPECT_EQ(VTYPE_LIST, value->GetType(index));
list_value = value->GetList(index);
EXPECT_TRUE(list_value.get());
EXPECT_TRUE(list_value->IsValid());
EXPECT_TRUE(list_value->IsOwned());
EXPECT_FALSE(list_value->IsReadOnly());
EXPECT_EQ(1U, list_value->GetSize());
EXPECT_EQ(kIntValue, list_value->GetInt(0));
}
// Test list value.
void TestList(CefRefPtr<CefListValue> value,
char* binary_data, size_t binary_data_size) {
CefRefPtr<CefBinaryValue> binary_value;
CefRefPtr<CefDictionaryValue> dictionary_value;
CefRefPtr<CefListValue> list_value;
// Test the size.
EXPECT_EQ(0U, value->GetSize());
// Set the size.
EXPECT_TRUE(value->SetSize(8));
EXPECT_EQ(8U, value->GetSize());
EXPECT_EQ(VTYPE_NULL, value->GetType(kNullIndex));
TestListNull(value, kNullIndex);
EXPECT_EQ(VTYPE_NULL, value->GetType(kBoolIndex));
TestListBool(value, kBoolIndex);
EXPECT_EQ(VTYPE_NULL, value->GetType(kIntIndex));
TestListInt(value, kIntIndex);
EXPECT_EQ(VTYPE_NULL, value->GetType(kDoubleIndex));
TestListDouble(value, kDoubleIndex);
EXPECT_EQ(VTYPE_NULL, value->GetType(kStringIndex));
TestListString(value, kStringIndex);
EXPECT_EQ(VTYPE_NULL, value->GetType(kBinaryIndex));
TestListBinary(value, kBinaryIndex, binary_data, binary_data_size,
binary_value);
EXPECT_EQ(VTYPE_NULL, value->GetType(kDictionaryIndex));
TestListDictionary(value, kDictionaryIndex, dictionary_value);
EXPECT_EQ(VTYPE_NULL, value->GetType(kListIndex));
TestListList(value, kListIndex, list_value);
// Test the size.
EXPECT_EQ(8U, value->GetSize());
// Test copy.
CefRefPtr<CefListValue> copy = value->Copy();
TestListEqual(value, copy);
// Test removal (in reverse order so indexes stay valid).
EXPECT_TRUE(value->Remove(kListIndex));
EXPECT_EQ(7U, value->GetSize());
EXPECT_FALSE(list_value->IsValid()); // Value should be detached
EXPECT_TRUE(value->Remove(kDictionaryIndex));
EXPECT_EQ(6U, value->GetSize());
EXPECT_FALSE(dictionary_value->IsValid()); // Value should be detached
EXPECT_TRUE(value->Remove(kBinaryIndex));
EXPECT_EQ(5U, value->GetSize());
EXPECT_FALSE(binary_value->IsValid()); // Value should be detached
EXPECT_TRUE(value->Remove(kStringIndex));
EXPECT_EQ(4U, value->GetSize());
EXPECT_TRUE(value->Remove(kDoubleIndex));
EXPECT_EQ(3U, value->GetSize());
EXPECT_TRUE(value->Remove(kIntIndex));
EXPECT_EQ(2U, value->GetSize());
EXPECT_TRUE(value->Remove(kBoolIndex));
EXPECT_EQ(1U, value->GetSize());
EXPECT_TRUE(value->Remove(kNullIndex));
EXPECT_EQ(0U, value->GetSize());
// Re-add some values.
EXPECT_EQ(VTYPE_INVALID, value->GetType(0));
TestListNull(value, 0);
EXPECT_EQ(VTYPE_INVALID, value->GetType(1));
TestListBool(value, 1);
EXPECT_EQ(VTYPE_INVALID, value->GetType(2));
TestListList(value, 2, list_value);
// Test the size.
EXPECT_EQ(3U, value->GetSize());
// Clear the values.
EXPECT_TRUE(value->Clear());
EXPECT_EQ(0U, value->GetSize());
EXPECT_FALSE(list_value->IsValid()); // Value should be detached
// Add some values in random order.
EXPECT_EQ(VTYPE_INVALID, value->GetType(2));
TestListInt(value, 2);
EXPECT_EQ(VTYPE_NULL, value->GetType(0));
TestListBool(value, 0);
EXPECT_EQ(VTYPE_NULL, value->GetType(1));
TestListList(value, 1, list_value);
EXPECT_EQ(VTYPE_BOOL, value->GetType(0));
EXPECT_EQ(VTYPE_LIST, value->GetType(1));
EXPECT_EQ(VTYPE_INT, value->GetType(2));
// Test the size.
EXPECT_EQ(3U, value->GetSize());
// Clear some values.
EXPECT_TRUE(value->SetSize(1));
EXPECT_EQ(1U, value->GetSize());
EXPECT_FALSE(list_value->IsValid()); // Value should be detached
EXPECT_EQ(VTYPE_BOOL, value->GetType(0));
EXPECT_EQ(VTYPE_INVALID, value->GetType(1));
EXPECT_EQ(VTYPE_INVALID, value->GetType(2));
// Clear all values.
EXPECT_TRUE(value->Clear());
EXPECT_EQ(0U, value->GetSize());
}
// Used to test access of list data on a different thread.
class ListTask : public CefTask {
public:
ListTask(CefRefPtr<CefListValue> value, char* binary_data,
size_t binary_data_size)
: value_(value),
binary_data_(binary_data),
binary_data_size_(binary_data_size) {}
void Execute() override {
TestList(value_, binary_data_, binary_data_size_);
}
private:
CefRefPtr<CefListValue> value_;
char* binary_data_;
size_t binary_data_size_;
IMPLEMENT_REFCOUNTING(ListTask);
};
void CreateAndCompareCopy(CefRefPtr<CefValue> value) {
CefRefPtr<CefValue> value2 = value->Copy();
EXPECT_TRUE(value->IsEqual(value));
EXPECT_TRUE(value->IsSame(value));
EXPECT_TRUE(value2->IsEqual(value2));
EXPECT_TRUE(value2->IsSame(value2));
EXPECT_TRUE(value->IsEqual(value2));
EXPECT_FALSE(value->IsSame(value2));
EXPECT_TRUE(value2->IsEqual(value));
EXPECT_FALSE(value2->IsSame(value));
}
CefRefPtr<CefBinaryValue> CreateBinaryValue() {
char binary_data[] = "This is my test data";
const size_t binary_data_size = sizeof(binary_data) - 1;
CefRefPtr<CefBinaryValue> binary_value =
CefBinaryValue::Create(binary_data, binary_data_size);
EXPECT_TRUE(binary_value.get());
EXPECT_TRUE(binary_value->IsValid());
EXPECT_FALSE(binary_value->IsOwned());
TestBinary(binary_value, binary_data, binary_data_size);
return binary_value;
}
CefRefPtr<CefListValue> CreateListValue() {
CefRefPtr<CefListValue> list_value = CefListValue::Create();
EXPECT_TRUE(list_value.get());
EXPECT_TRUE(list_value->IsValid());
EXPECT_FALSE(list_value->IsOwned());
EXPECT_FALSE(list_value->IsReadOnly());
EXPECT_TRUE(list_value->SetInt(0, kIntValue));
EXPECT_TRUE(list_value->SetInt(1, kDoubleValue));
return list_value;
}
const char* kKey1 = "key1";
const char* kKey2 = "key2";
CefRefPtr<CefDictionaryValue> CreateDictionaryValue() {
// Create the dictionary.
CefRefPtr<CefDictionaryValue> dict_value = CefDictionaryValue::Create();
EXPECT_TRUE(dict_value.get());
EXPECT_TRUE(dict_value->IsValid());
EXPECT_FALSE(dict_value->IsOwned());
EXPECT_FALSE(dict_value->IsReadOnly());
EXPECT_TRUE(dict_value->SetInt(kKey1, kIntValue));
EXPECT_TRUE(dict_value->SetInt(kKey2, kDoubleValue));
return dict_value;
}
} // namespace
// Test binary value access.
TEST(ValuesTest, BinaryAccess) {
char data[] = "This is my test data";
CefRefPtr<CefBinaryValue> value =
CefBinaryValue::Create(data, sizeof(data)-1);
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsOwned());
// Test on this thread.
TestBinary(value, data, sizeof(data)-1);
}
// Test binary value access on a different thread.
TEST(ValuesTest, BinaryAccessOtherThread) {
char data[] = "This is my test data";
CefRefPtr<CefBinaryValue> value =
CefBinaryValue::Create(data, sizeof(data)-1);
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsOwned());
// Test on a different thread.
CefPostTask(TID_UI, new BinaryTask(value, data, sizeof(data)-1));
WaitForUIThread();
}
// Test dictionary value access.
TEST(ValuesTest, DictionaryAccess) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsOwned());
EXPECT_FALSE(value->IsReadOnly());
char binary_data[] = "This is my test data";
// Test on this thread.
TestDictionary(value, binary_data, sizeof(binary_data)-1);
}
// Test dictionary value access on a different thread.
TEST(ValuesTest, DictionaryAccessOtherThread) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsOwned());
EXPECT_FALSE(value->IsReadOnly());
char binary_data[] = "This is my test data";
// Test on a different thread.
CefPostTask(TID_UI,
new DictionaryTask(value, binary_data, sizeof(binary_data)-1));
WaitForUIThread();
}
// Test dictionary value nested detachment
TEST(ValuesTest, DictionaryDetachment) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsOwned());
EXPECT_FALSE(value->IsReadOnly());
CefRefPtr<CefDictionaryValue> dictionary_value = CefDictionaryValue::Create();
CefRefPtr<CefDictionaryValue> dictionary_value2 =
CefDictionaryValue::Create();
CefRefPtr<CefDictionaryValue> dictionary_value3 =
CefDictionaryValue::Create();
dictionary_value2->SetDictionary(kDictionaryKey, dictionary_value3);
EXPECT_FALSE(dictionary_value3->IsValid());
dictionary_value->SetDictionary(kDictionaryKey, dictionary_value2);
EXPECT_FALSE(dictionary_value2->IsValid());
value->SetDictionary(kDictionaryKey, dictionary_value);
EXPECT_FALSE(dictionary_value->IsValid());
dictionary_value = value->GetDictionary(kDictionaryKey);
EXPECT_TRUE(dictionary_value.get());
EXPECT_TRUE(dictionary_value->IsValid());
dictionary_value2 = dictionary_value->GetDictionary(kDictionaryKey);
EXPECT_TRUE(dictionary_value2.get());
EXPECT_TRUE(dictionary_value2->IsValid());
dictionary_value3 = dictionary_value2->GetDictionary(kDictionaryKey);
EXPECT_TRUE(dictionary_value3.get());
EXPECT_TRUE(dictionary_value3->IsValid());
EXPECT_TRUE(value->Remove(kDictionaryKey));
EXPECT_FALSE(dictionary_value->IsValid());
EXPECT_FALSE(dictionary_value2->IsValid());
EXPECT_FALSE(dictionary_value3->IsValid());
}
// Test list value access.
TEST(ValuesTest, ListAccess) {
CefRefPtr<CefListValue> value = CefListValue::Create();
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsOwned());
EXPECT_FALSE(value->IsReadOnly());
char binary_data[] = "This is my test data";
// Test on this thread.
TestList(value, binary_data, sizeof(binary_data)-1);
}
// Test list value access on a different thread.
TEST(ValuesTest, ListAccessOtherThread) {
CefRefPtr<CefListValue> value = CefListValue::Create();
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsOwned());
EXPECT_FALSE(value->IsReadOnly());
char binary_data[] = "This is my test data";
// Test on a different thread.
CefPostTask(TID_UI, new ListTask(value, binary_data, sizeof(binary_data)-1));
WaitForUIThread();
}
// Test list value nested detachment
TEST(ValuesTest, ListDetachment) {
CefRefPtr<CefListValue> value = CefListValue::Create();
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsOwned());
EXPECT_FALSE(value->IsReadOnly());
CefRefPtr<CefListValue> list_value = CefListValue::Create();
CefRefPtr<CefListValue> list_value2 = CefListValue::Create();
CefRefPtr<CefListValue> list_value3 = CefListValue::Create();
list_value2->SetList(0, list_value3);
EXPECT_FALSE(list_value3->IsValid());
list_value->SetList(0, list_value2);
EXPECT_FALSE(list_value2->IsValid());
value->SetList(0, list_value);
EXPECT_FALSE(list_value->IsValid());
list_value = value->GetList(0);
EXPECT_TRUE(list_value.get());
EXPECT_TRUE(list_value->IsValid());
list_value2 = list_value->GetList(0);
EXPECT_TRUE(list_value2.get());
EXPECT_TRUE(list_value2->IsValid());
list_value3 = list_value2->GetList(0);
EXPECT_TRUE(list_value3.get());
EXPECT_TRUE(list_value3->IsValid());
EXPECT_TRUE(value->Remove(0));
EXPECT_FALSE(list_value->IsValid());
EXPECT_FALSE(list_value2->IsValid());
EXPECT_FALSE(list_value3->IsValid());
}
// Test get/set of a CefValue simple types.
TEST(ValuesTest, ValueSimple) {
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value.get());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
EXPECT_EQ(VTYPE_NULL, value->GetType());
CreateAndCompareCopy(value);
EXPECT_TRUE(value->SetBool(true));
EXPECT_EQ(VTYPE_BOOL, value->GetType());
EXPECT_EQ(true, value->GetBool());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
EXPECT_TRUE(value->SetBool(false));
EXPECT_EQ(VTYPE_BOOL, value->GetType());
EXPECT_EQ(false, value->GetBool());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
EXPECT_TRUE(value->SetInt(3));
EXPECT_EQ(VTYPE_INT, value->GetType());
EXPECT_EQ(3, value->GetInt());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
EXPECT_TRUE(value->SetDouble(5.665));
EXPECT_EQ(VTYPE_DOUBLE, value->GetType());
EXPECT_EQ(5.665, value->GetDouble());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
const char* str = "Test string";
EXPECT_TRUE(value->SetString(str));
EXPECT_EQ(VTYPE_STRING, value->GetType());
EXPECT_STREQ(str, value->GetString().ToString().data());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
EXPECT_TRUE(value->SetNull());
EXPECT_EQ(VTYPE_NULL, value->GetType());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
}
// Test association of a CefValue simple type with a CefListValue.
TEST(ValuesTest, ValueSimpleToList) {
const double double_value = 5.665;
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetDouble(double_value));
// Add the value to the target list.
CefRefPtr<CefListValue> target_list = CefListValue::Create();
EXPECT_TRUE(target_list->SetValue(0, value));
// Test the value in the target list.
EXPECT_EQ(VTYPE_DOUBLE, target_list->GetType(0));
EXPECT_EQ(double_value, target_list->GetDouble(0));
// Get the value from the target list.
CefRefPtr<CefValue> value2 = target_list->GetValue(0);
EXPECT_TRUE(value2.get());
EXPECT_FALSE(value2->IsOwned());
EXPECT_FALSE(value2->IsReadOnly());
EXPECT_EQ(VTYPE_DOUBLE, value2->GetType());
EXPECT_EQ(double_value, value2->GetDouble());
// Values are equal but not the same.
EXPECT_TRUE(value->IsEqual(value2));
EXPECT_TRUE(value2->IsEqual(value));
EXPECT_FALSE(value->IsSame(value2));
EXPECT_FALSE(value2->IsSame(value));
// Change the value in the target list.
EXPECT_TRUE(target_list->SetInt(0, 5));
EXPECT_EQ(VTYPE_INT, target_list->GetType(0));
EXPECT_EQ(5, target_list->GetInt(0));
// The other values are still valid.
EXPECT_TRUE(value->IsValid());
EXPECT_TRUE(value2->IsValid());
}
// Test association of a CefValue simple type with a CefDictionaryValue.
TEST(ValuesTest, ValueSimpleToDictionary) {
const double double_value = 5.665;
const char* key = "key";
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetDouble(double_value));
// Add the value to the target dictionary.
CefRefPtr<CefDictionaryValue> target_dict = CefDictionaryValue::Create();
EXPECT_TRUE(target_dict->SetValue(key, value));
// Test the value in the target dictionary.
EXPECT_EQ(VTYPE_DOUBLE, target_dict->GetType(key));
EXPECT_EQ(double_value, target_dict->GetDouble(key));
// Get the value from the target dictionary.
CefRefPtr<CefValue> value2 = target_dict->GetValue(key);
EXPECT_TRUE(value2.get());
EXPECT_FALSE(value2->IsOwned());
EXPECT_FALSE(value2->IsReadOnly());
EXPECT_EQ(VTYPE_DOUBLE, value2->GetType());
EXPECT_EQ(double_value, value2->GetDouble());
// Values are equal but not the same.
EXPECT_TRUE(value->IsEqual(value2));
EXPECT_TRUE(value2->IsEqual(value));
EXPECT_FALSE(value->IsSame(value2));
EXPECT_FALSE(value2->IsSame(value));
// Change the value in the target dictionary.
EXPECT_TRUE(target_dict->SetInt(key, 5));
EXPECT_EQ(VTYPE_INT, target_dict->GetType(key));
EXPECT_EQ(5, target_dict->GetInt(key));
// The other values are still valid.
EXPECT_TRUE(value->IsValid());
EXPECT_TRUE(value2->IsValid());
}
// Test get/set of a CefValue binary type.
TEST(ValuesTest, ValueBinary) {
// Create the binary.
CefRefPtr<CefBinaryValue> binary_value = CreateBinaryValue();
// Create the value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetBinary(binary_value));
EXPECT_EQ(VTYPE_BINARY, value->GetType());
EXPECT_TRUE(value->IsValid());
EXPECT_TRUE(value->IsReadOnly()); // Binary values are always read-only.
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
// Get the binary reference from the value.
CefRefPtr<CefBinaryValue> binary_value2 = value->GetBinary();
EXPECT_TRUE(binary_value2.get());
EXPECT_TRUE(binary_value2->IsValid());
EXPECT_FALSE(binary_value2->IsOwned());
// The binaries are the same and equal.
TestBinaryEqual(binary_value, binary_value2);
EXPECT_TRUE(binary_value->IsSame(binary_value2));
EXPECT_TRUE(binary_value2->IsSame(binary_value));
}
// Test association of a CefValue binary with a CefListValue.
TEST(ValuesTest, ValueBinaryToList) {
// Create the binary.
CefRefPtr<CefBinaryValue> binary_value = CreateBinaryValue();
// Add the binary to a value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetBinary(binary_value));
// Add the value to the target list.
CefRefPtr<CefListValue> target_list = CefListValue::Create();
EXPECT_TRUE(target_list->SetValue(0, value));
// The binary value is now owned by the target list.
EXPECT_FALSE(binary_value->IsValid());
// The value is still valid and points to the new reference list.
EXPECT_TRUE(value->IsValid());
CefRefPtr<CefBinaryValue> binary_value2 = value->GetBinary();
CefRefPtr<CefBinaryValue> binary_value3 = target_list->GetBinary(0);
CefRefPtr<CefValue> value2 = target_list->GetValue(0);
CefRefPtr<CefBinaryValue> binary_value4 = value2->GetBinary();
// All values are owned by the target list.
EXPECT_TRUE(value->IsOwned());
EXPECT_TRUE(value2->IsOwned());
EXPECT_TRUE(binary_value2->IsOwned());
EXPECT_TRUE(binary_value3->IsOwned());
EXPECT_TRUE(binary_value4->IsOwned());
// All values are the same.
EXPECT_TRUE(binary_value2->IsSame(binary_value3));
TestBinaryEqual(binary_value2, binary_value3);
EXPECT_TRUE(binary_value2->IsSame(binary_value4));
TestBinaryEqual(binary_value2, binary_value4);
// Change the value to something else.
EXPECT_TRUE(target_list->SetInt(0, kIntValue));
EXPECT_EQ(VTYPE_INT, target_list->GetType(0));
EXPECT_EQ(kIntValue, target_list->GetInt(0));
// Now the references are invalid.
EXPECT_FALSE(value->IsValid());
EXPECT_FALSE(value2->IsValid());
EXPECT_FALSE(binary_value2->IsValid());
EXPECT_FALSE(binary_value3->IsValid());
EXPECT_FALSE(binary_value4->IsValid());
// Verify that adding a binary to a list directly invalidates both the binary
// and the value that references it.
binary_value = CreateBinaryValue();
value = CefValue::Create();
EXPECT_TRUE(value->SetBinary(binary_value));
target_list->SetBinary(0, binary_value);
EXPECT_FALSE(binary_value->IsValid());
EXPECT_FALSE(value->IsValid());
}
// Test association of a CefValue binary with a CefDictionaryValue.
TEST(ValuesTest, ValueBinaryToDictionary) {
const char* key = "key";
// Create the binary.
CefRefPtr<CefBinaryValue> binary_value = CreateBinaryValue();
// Add the binary to a value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetBinary(binary_value));
// Add the value to the target dictionary.
CefRefPtr<CefDictionaryValue> target_dict = CefDictionaryValue::Create();
EXPECT_TRUE(target_dict->SetValue(key, value));
// The list value is now owned by the target dictionary.
EXPECT_FALSE(binary_value->IsValid());
// The value is still valid and points to the new reference list.
EXPECT_TRUE(value->IsValid());
CefRefPtr<CefBinaryValue> binary_value2 = value->GetBinary();
CefRefPtr<CefBinaryValue> binary_value3 = target_dict->GetBinary(key);
CefRefPtr<CefValue> value2 = target_dict->GetValue(key);
CefRefPtr<CefBinaryValue> binary_value4 = value2->GetBinary();
// All values are owned by the target dictionary.
EXPECT_TRUE(value->IsOwned());
EXPECT_TRUE(value2->IsOwned());
EXPECT_TRUE(binary_value2->IsOwned());
EXPECT_TRUE(binary_value3->IsOwned());
EXPECT_TRUE(binary_value4->IsOwned());
// All values are the same.
EXPECT_TRUE(binary_value2->IsSame(binary_value3));
TestBinaryEqual(binary_value2, binary_value3);
EXPECT_TRUE(binary_value2->IsSame(binary_value4));
TestBinaryEqual(binary_value2, binary_value4);
// Change the value to something else.
EXPECT_TRUE(target_dict->SetInt(key, kIntValue));
EXPECT_EQ(VTYPE_INT, target_dict->GetType(key));
EXPECT_EQ(kIntValue, target_dict->GetInt(key));
// Now the references are invalid.
EXPECT_FALSE(value->IsValid());
EXPECT_FALSE(value2->IsValid());
EXPECT_FALSE(binary_value2->IsValid());
EXPECT_FALSE(binary_value3->IsValid());
EXPECT_FALSE(binary_value4->IsValid());
// Verify that adding a binary to a dictionary directly invalidates both the
// binary and the value that references it.
binary_value = CreateBinaryValue();
value = CefValue::Create();
EXPECT_TRUE(value->SetBinary(binary_value));
target_dict->SetBinary(key, binary_value);
EXPECT_FALSE(binary_value->IsValid());
EXPECT_FALSE(value->IsValid());
}
// Test get/set of a CefValue list type.
TEST(ValuesTest, ValueList) {
// Create the list.
CefRefPtr<CefListValue> list_value = CreateListValue();
// Create the value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetList(list_value));
EXPECT_EQ(VTYPE_LIST, value->GetType());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
// Get the list reference from the value.
CefRefPtr<CefListValue> list_value2 = value->GetList();
EXPECT_TRUE(list_value2.get());
EXPECT_TRUE(list_value2->IsValid());
EXPECT_FALSE(list_value2->IsOwned());
EXPECT_FALSE(list_value2->IsReadOnly());
// The lists are the same and equal.
TestListEqual(list_value, list_value2);
EXPECT_TRUE(list_value->IsSame(list_value2));
EXPECT_TRUE(list_value2->IsSame(list_value));
// Change a value in one list and verify that it's changed in the other list.
EXPECT_TRUE(list_value->SetString(0, kStringValue));
EXPECT_EQ(VTYPE_STRING, list_value->GetType(0));
EXPECT_STREQ(kStringValue, list_value->GetString(0).ToString().data());
}
// Test association of a CefValue list with a CefListValue.
TEST(ValuesTest, ValueListToList) {
// Create the list.
CefRefPtr<CefListValue> list_value = CreateListValue();
// Add the list to a value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetList(list_value));
// Add the value to the target list.
CefRefPtr<CefListValue> target_list = CefListValue::Create();
EXPECT_TRUE(target_list->SetValue(0, value));
// The list value is now owned by the target list.
EXPECT_FALSE(list_value->IsValid());
// The value is still valid and points to the new reference list.
EXPECT_TRUE(value->IsValid());
CefRefPtr<CefListValue> list_value2 = value->GetList();
CefRefPtr<CefListValue> list_value3 = target_list->GetList(0);
CefRefPtr<CefValue> value2 = target_list->GetValue(0);
CefRefPtr<CefListValue> list_value4 = value2->GetList();
// All values are owned by the target list.
EXPECT_TRUE(value->IsOwned());
EXPECT_TRUE(value2->IsOwned());
EXPECT_TRUE(list_value2->IsOwned());
EXPECT_TRUE(list_value3->IsOwned());
EXPECT_TRUE(list_value4->IsOwned());
// All values are the same.
EXPECT_TRUE(list_value2->IsSame(list_value3));
TestListEqual(list_value2, list_value3);
EXPECT_TRUE(list_value2->IsSame(list_value4));
TestListEqual(list_value2, list_value4);
// Change the value to something else.
EXPECT_TRUE(target_list->SetInt(0, kIntValue));
EXPECT_EQ(VTYPE_INT, target_list->GetType(0));
EXPECT_EQ(kIntValue, target_list->GetInt(0));
// Now the references are invalid.
EXPECT_FALSE(value->IsValid());
EXPECT_FALSE(value2->IsValid());
EXPECT_FALSE(list_value2->IsValid());
EXPECT_FALSE(list_value3->IsValid());
EXPECT_FALSE(list_value4->IsValid());
// Verify that adding a list to a list directly invalidates both the list
// and the value that references it.
list_value = CreateListValue();
value = CefValue::Create();
EXPECT_TRUE(value->SetList(list_value));
target_list->SetList(0, list_value);
EXPECT_FALSE(list_value->IsValid());
EXPECT_FALSE(value->IsValid());
}
// Test association of a CefValue list with a CefDictionaryValue.
TEST(ValuesTest, ValueListToDictionary) {
const char* key = "key";
// Create the list.
CefRefPtr<CefListValue> list_value = CreateListValue();
// Add the list to a value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetList(list_value));
// Add the value to the target dictionary.
CefRefPtr<CefDictionaryValue> target_dict = CefDictionaryValue::Create();
EXPECT_TRUE(target_dict->SetValue(key, value));
// The list value is now owned by the target dictionary.
EXPECT_FALSE(list_value->IsValid());
// The value is still valid and points to the new reference list.
EXPECT_TRUE(value->IsValid());
CefRefPtr<CefListValue> list_value2 = value->GetList();
CefRefPtr<CefListValue> list_value3 = target_dict->GetList(key);
CefRefPtr<CefValue> value2 = target_dict->GetValue(key);
CefRefPtr<CefListValue> list_value4 = value2->GetList();
// All values are owned by the target dictionary.
EXPECT_TRUE(value->IsOwned());
EXPECT_TRUE(value2->IsOwned());
EXPECT_TRUE(list_value2->IsOwned());
EXPECT_TRUE(list_value3->IsOwned());
EXPECT_TRUE(list_value4->IsOwned());
// All values are the same.
EXPECT_TRUE(list_value2->IsSame(list_value3));
TestListEqual(list_value2, list_value3);
EXPECT_TRUE(list_value2->IsSame(list_value4));
TestListEqual(list_value2, list_value4);
// Change the value to something else.
EXPECT_TRUE(target_dict->SetInt(key, kIntValue));
EXPECT_EQ(VTYPE_INT, target_dict->GetType(key));
EXPECT_EQ(kIntValue, target_dict->GetInt(key));
// Now the references are invalid.
EXPECT_FALSE(value->IsValid());
EXPECT_FALSE(value2->IsValid());
EXPECT_FALSE(list_value2->IsValid());
EXPECT_FALSE(list_value3->IsValid());
EXPECT_FALSE(list_value4->IsValid());
// Verify that adding a list to a dictionary directly invalidates both the
// list and the value that references it.
list_value = CreateListValue();
value = CefValue::Create();
EXPECT_TRUE(value->SetList(list_value));
target_dict->SetList(key, list_value);
EXPECT_FALSE(list_value->IsValid());
EXPECT_FALSE(value->IsValid());
}
// Test get/set of a CefValue dictionary type.
TEST(ValuesTest, ValueDictionary) {
// Create the dictionary.
CefRefPtr<CefDictionaryValue> dict_value = CreateDictionaryValue();
// Create the value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetDictionary(dict_value));
EXPECT_EQ(VTYPE_DICTIONARY, value->GetType());
EXPECT_TRUE(value->IsValid());
EXPECT_FALSE(value->IsReadOnly());
EXPECT_FALSE(value->IsOwned());
CreateAndCompareCopy(value);
// Get the dictionary reference from the value.
CefRefPtr<CefDictionaryValue> dict_value2 = value->GetDictionary();
EXPECT_TRUE(dict_value2.get());
EXPECT_TRUE(dict_value2->IsValid());
EXPECT_FALSE(dict_value2->IsOwned());
EXPECT_FALSE(dict_value2->IsReadOnly());
// The dictionaries are the same and equal.
TestDictionaryEqual(dict_value, dict_value2);
EXPECT_TRUE(dict_value->IsSame(dict_value2));
EXPECT_TRUE(dict_value2->IsSame(dict_value));
// Change a value in one dictionary and verify that it's changed in the other
// dictionary.
EXPECT_TRUE(dict_value->SetString(kKey1, kStringValue));
EXPECT_EQ(VTYPE_STRING, dict_value->GetType(kKey1));
EXPECT_STREQ(kStringValue, dict_value->GetString(kKey1).ToString().data());
}
// Test association of a CefValue dictionary with a CefListValue.
TEST(ValuesTest, ValueDictionaryToList) {
// Create the dictionary.
CefRefPtr<CefDictionaryValue> dict_value = CreateDictionaryValue();
// Add the list to a value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetDictionary(dict_value));
// Add the value to the target list.
CefRefPtr<CefListValue> target_list = CefListValue::Create();
EXPECT_TRUE(target_list->SetValue(0, value));
// The list value is now owned by the target list.
EXPECT_FALSE(dict_value->IsValid());
// The value is still valid and points to the new reference list.
EXPECT_TRUE(value->IsValid());
CefRefPtr<CefDictionaryValue> dict_value2 = value->GetDictionary();
CefRefPtr<CefDictionaryValue> dict_value3 = target_list->GetDictionary(0);
CefRefPtr<CefValue> value2 = target_list->GetValue(0);
CefRefPtr<CefDictionaryValue> dict_value4 = value2->GetDictionary();
// All values are owned by the target list.
EXPECT_TRUE(value->IsOwned());
EXPECT_TRUE(value2->IsOwned());
EXPECT_TRUE(dict_value2->IsOwned());
EXPECT_TRUE(dict_value3->IsOwned());
EXPECT_TRUE(dict_value4->IsOwned());
// All values are the same.
EXPECT_TRUE(dict_value2->IsSame(dict_value3));
TestDictionaryEqual(dict_value2, dict_value3);
EXPECT_TRUE(dict_value2->IsSame(dict_value4));
TestDictionaryEqual(dict_value2, dict_value4);
// Change the value to something else.
EXPECT_TRUE(target_list->SetInt(0, kIntValue));
EXPECT_EQ(VTYPE_INT, target_list->GetType(0));
EXPECT_EQ(kIntValue, target_list->GetInt(0));
// Now the references are invalid.
EXPECT_FALSE(value->IsValid());
EXPECT_FALSE(value2->IsValid());
EXPECT_FALSE(dict_value2->IsValid());
EXPECT_FALSE(dict_value3->IsValid());
EXPECT_FALSE(dict_value4->IsValid());
// Verify that adding a dictionary to a list directly invalidates both the
// dictionary and the value that references it.
dict_value = CreateDictionaryValue();
value = CefValue::Create();
EXPECT_TRUE(value->SetDictionary(dict_value));
target_list->SetDictionary(0, dict_value);
EXPECT_FALSE(dict_value->IsValid());
EXPECT_FALSE(value->IsValid());
}
// Test association of a CefValue dictionary with a CefDictionaryValue.
TEST(ValuesTest, ValueDictionaryToDictionary) {
const char* key = "key";
// Create the dictionary.
CefRefPtr<CefDictionaryValue> dict_value = CreateDictionaryValue();
// Add the list to a value.
CefRefPtr<CefValue> value = CefValue::Create();
EXPECT_TRUE(value->SetDictionary(dict_value));
// Add the value to the target dictionary.
CefRefPtr<CefDictionaryValue> target_dict = CefDictionaryValue::Create();
EXPECT_TRUE(target_dict->SetValue(key, value));
// The list value is now owned by the target dictionary.
EXPECT_FALSE(dict_value->IsValid());
// The value is still valid and points to the new reference list.
EXPECT_TRUE(value->IsValid());
CefRefPtr<CefDictionaryValue> dict_value2 = value->GetDictionary();
CefRefPtr<CefDictionaryValue> dict_value3 = target_dict->GetDictionary(key);
CefRefPtr<CefValue> value2 = target_dict->GetValue(key);
CefRefPtr<CefDictionaryValue> dict_value4 = value2->GetDictionary();
// All values are owned by the target dictionary.
EXPECT_TRUE(value->IsOwned());
EXPECT_TRUE(value2->IsOwned());
EXPECT_TRUE(dict_value2->IsOwned());
EXPECT_TRUE(dict_value3->IsOwned());
EXPECT_TRUE(dict_value4->IsOwned());
// All values are the same.
EXPECT_TRUE(dict_value2->IsSame(dict_value3));
TestDictionaryEqual(dict_value2, dict_value3);
EXPECT_TRUE(dict_value2->IsSame(dict_value4));
TestDictionaryEqual(dict_value2, dict_value4);
// Change the value to something else.
EXPECT_TRUE(target_dict->SetInt(key, kIntValue));
EXPECT_EQ(VTYPE_INT, target_dict->GetType(key));
EXPECT_EQ(kIntValue, target_dict->GetInt(key));
// Now the references are invalid.
EXPECT_FALSE(value->IsValid());
EXPECT_FALSE(value2->IsValid());
EXPECT_FALSE(dict_value2->IsValid());
EXPECT_FALSE(dict_value3->IsValid());
EXPECT_FALSE(dict_value4->IsValid());
// Verify that adding a dictionary to a dictionary directly invalidates both
// the dictionary and the value that references it.
dict_value = CreateDictionaryValue();
value = CefValue::Create();
EXPECT_TRUE(value->SetDictionary(dict_value));
target_dict->SetDictionary(key, dict_value);
EXPECT_FALSE(dict_value->IsValid());
EXPECT_FALSE(value->IsValid());
}