runtime/vm/message_test.cc - sdk.git - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/message.h"
 #include "platform/assert.h"
 #include "vm/unit_test.h"

 namespace dart {

 static uint8_t* AllocMsg(const char* str) {
   return reinterpret_cast<uint8_t*>(Utils::StrDup(str));
 }

 TEST_CASE(MessageQueue_BasicOperations) {
   MessageQueue queue;
   EXPECT(queue.IsEmpty());
   MessageQueue::Iterator it(&queue);
   // Queue is empty.
   EXPECT(!it.HasNext());

   Dart_Port port = 1;

   const char* str1 = "msg1";
   const char* str2 = "msg2";
   const char* str3 = "msg3";
   const char* str4 = "msg4";
   const char* str5 = "msg5";
   const char* str6 = "msg6";

   // Add two messages.
   std::unique_ptr<Message> msg =
       Message::New(port, AllocMsg(str1), strlen(str1) + 1, nullptr,
                    Message::kNormalPriority);
   Message* msg1 = msg.get();
   queue.Enqueue(std::move(msg), false);
   EXPECT(queue.Length() == 1);
   EXPECT(!queue.IsEmpty());
   it.Reset(&queue);
   EXPECT(it.HasNext());
   EXPECT(it.Next() == msg1);
   EXPECT(!it.HasNext());

   msg = Message::New(port, AllocMsg(str2), strlen(str2) + 1, nullptr,
                      Message::kNormalPriority);
   Message* msg2 = msg.get();
   queue.Enqueue(std::move(msg), false);
   EXPECT(queue.Length() == 2);
   EXPECT(!queue.IsEmpty());
   it.Reset(&queue);
   EXPECT(it.HasNext());
   EXPECT(it.Next() == msg1);
   EXPECT(it.HasNext());
   EXPECT(it.Next() == msg2);
   EXPECT(!it.HasNext());

   // Lookup messages by id.
   EXPECT(queue.FindMessageById(reinterpret_cast<intptr_t>(msg1)) == msg1);
   EXPECT(queue.FindMessageById(reinterpret_cast<intptr_t>(msg2)) == msg2);

   // Lookup bad id.
   EXPECT(queue.FindMessageById(0x1) == NULL);

   // Remove message 1
   msg = queue.Dequeue();
   EXPECT(msg != nullptr);
   EXPECT_STREQ(str1, reinterpret_cast<char*>(msg->snapshot()));
   EXPECT(!queue.IsEmpty());

   it.Reset(&queue);
   EXPECT(it.HasNext());
   EXPECT(it.Next() == msg2);

   // Remove message 2
   msg = queue.Dequeue();
   EXPECT(msg != nullptr);
   EXPECT_STREQ(str2, reinterpret_cast<char*>(msg->snapshot()));
   EXPECT(queue.IsEmpty());

   msg = Message::New(Message::kIllegalPort, AllocMsg(str3), strlen(str3) + 1,
                      nullptr, Message::kNormalPriority);
   queue.Enqueue(std::move(msg), true);
   EXPECT(!queue.IsEmpty());

   msg = Message::New(Message::kIllegalPort, AllocMsg(str4), strlen(str4) + 1,
                      nullptr, Message::kNormalPriority);
   queue.Enqueue(std::move(msg), true);
   EXPECT(!queue.IsEmpty());

   msg = Message::New(port, AllocMsg(str5), strlen(str5) + 1, nullptr,
                      Message::kNormalPriority);
   queue.Enqueue(std::move(msg), false);
   EXPECT(!queue.IsEmpty());

   msg = Message::New(Message::kIllegalPort, AllocMsg(str6), strlen(str6) + 1,
                      nullptr, Message::kNormalPriority);
   queue.Enqueue(std::move(msg), true);
   EXPECT(!queue.IsEmpty());

   msg = queue.Dequeue();
   EXPECT(msg != nullptr);
   EXPECT_STREQ(str3, reinterpret_cast<char*>(msg->snapshot()));
   EXPECT(!queue.IsEmpty());

   msg = queue.Dequeue();
   EXPECT(msg != nullptr);
   EXPECT_STREQ(str4, reinterpret_cast<char*>(msg->snapshot()));
   EXPECT(!queue.IsEmpty());

   msg = queue.Dequeue();
   EXPECT(msg != nullptr);
   EXPECT_STREQ(str6, reinterpret_cast<char*>(msg->snapshot()));
   EXPECT(!queue.IsEmpty());

   msg = queue.Dequeue();
   EXPECT(msg != nullptr);
   EXPECT_STREQ(str5, reinterpret_cast<char*>(msg->snapshot()));
   EXPECT(queue.IsEmpty());
 }

 TEST_CASE(MessageQueue_Clear) {
   MessageQueue queue;
   Dart_Port port1 = 1;
   Dart_Port port2 = 2;

   const char* str1 = "msg1";
   const char* str2 = "msg2";

   // Add two messages.
   std::unique_ptr<Message> msg;
   msg = Message::New(port1, AllocMsg(str1), strlen(str1) + 1, nullptr,
                      Message::kNormalPriority);
   queue.Enqueue(std::move(msg), false);
   msg = Message::New(port2, AllocMsg(str2), strlen(str2) + 1, nullptr,
                      Message::kNormalPriority);
   queue.Enqueue(std::move(msg), false);

   EXPECT(!queue.IsEmpty());
   queue.Clear();
   EXPECT(queue.IsEmpty());
 }

 }  // namespace dart
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/message.h"
	#include "platform/assert.h"
	#include "vm/unit_test.h"

	namespace dart {

	static uint8_t* AllocMsg(const char* str) {
	return reinterpret_cast<uint8_t*>(Utils::StrDup(str));
	}

	TEST_CASE(MessageQueue_BasicOperations) {
	MessageQueue queue;
	EXPECT(queue.IsEmpty());
	MessageQueue::Iterator it(&queue);
	// Queue is empty.
	EXPECT(!it.HasNext());

	Dart_Port port = 1;

	const char* str1 = "msg1";
	const char* str2 = "msg2";
	const char* str3 = "msg3";
	const char* str4 = "msg4";
	const char* str5 = "msg5";
	const char* str6 = "msg6";

	// Add two messages.
	std::unique_ptr<Message> msg =
	Message::New(port, AllocMsg(str1), strlen(str1) + 1, nullptr,
	Message::kNormalPriority);
	Message* msg1 = msg.get();
	queue.Enqueue(std::move(msg), false);
	EXPECT(queue.Length() == 1);
	EXPECT(!queue.IsEmpty());
	it.Reset(&queue);
	EXPECT(it.HasNext());
	EXPECT(it.Next() == msg1);
	EXPECT(!it.HasNext());

	msg = Message::New(port, AllocMsg(str2), strlen(str2) + 1, nullptr,
	Message::kNormalPriority);
	Message* msg2 = msg.get();
	queue.Enqueue(std::move(msg), false);
	EXPECT(queue.Length() == 2);
	EXPECT(!queue.IsEmpty());
	it.Reset(&queue);
	EXPECT(it.HasNext());
	EXPECT(it.Next() == msg1);
	EXPECT(it.HasNext());
	EXPECT(it.Next() == msg2);
	EXPECT(!it.HasNext());

	// Lookup messages by id.
	EXPECT(queue.FindMessageById(reinterpret_cast<intptr_t>(msg1)) == msg1);
	EXPECT(queue.FindMessageById(reinterpret_cast<intptr_t>(msg2)) == msg2);

	// Lookup bad id.
	EXPECT(queue.FindMessageById(0x1) == NULL);

	// Remove message 1
	msg = queue.Dequeue();
	EXPECT(msg != nullptr);
	EXPECT_STREQ(str1, reinterpret_cast<char*>(msg->snapshot()));
	EXPECT(!queue.IsEmpty());

	it.Reset(&queue);
	EXPECT(it.HasNext());
	EXPECT(it.Next() == msg2);

	// Remove message 2
	msg = queue.Dequeue();
	EXPECT(msg != nullptr);
	EXPECT_STREQ(str2, reinterpret_cast<char*>(msg->snapshot()));
	EXPECT(queue.IsEmpty());

	msg = Message::New(Message::kIllegalPort, AllocMsg(str3), strlen(str3) + 1,
	nullptr, Message::kNormalPriority);
	queue.Enqueue(std::move(msg), true);
	EXPECT(!queue.IsEmpty());

	msg = Message::New(Message::kIllegalPort, AllocMsg(str4), strlen(str4) + 1,
	nullptr, Message::kNormalPriority);
	queue.Enqueue(std::move(msg), true);
	EXPECT(!queue.IsEmpty());

	msg = Message::New(port, AllocMsg(str5), strlen(str5) + 1, nullptr,
	Message::kNormalPriority);
	queue.Enqueue(std::move(msg), false);
	EXPECT(!queue.IsEmpty());

	msg = Message::New(Message::kIllegalPort, AllocMsg(str6), strlen(str6) + 1,
	nullptr, Message::kNormalPriority);
	queue.Enqueue(std::move(msg), true);
	EXPECT(!queue.IsEmpty());

	msg = queue.Dequeue();
	EXPECT(msg != nullptr);
	EXPECT_STREQ(str3, reinterpret_cast<char*>(msg->snapshot()));
	EXPECT(!queue.IsEmpty());

	msg = queue.Dequeue();
	EXPECT(msg != nullptr);
	EXPECT_STREQ(str4, reinterpret_cast<char*>(msg->snapshot()));
	EXPECT(!queue.IsEmpty());

	msg = queue.Dequeue();
	EXPECT(msg != nullptr);
	EXPECT_STREQ(str6, reinterpret_cast<char*>(msg->snapshot()));
	EXPECT(!queue.IsEmpty());

	msg = queue.Dequeue();
	EXPECT(msg != nullptr);
	EXPECT_STREQ(str5, reinterpret_cast<char*>(msg->snapshot()));
	EXPECT(queue.IsEmpty());
	}

	TEST_CASE(MessageQueue_Clear) {
	MessageQueue queue;
	Dart_Port port1 = 1;
	Dart_Port port2 = 2;

	const char* str1 = "msg1";
	const char* str2 = "msg2";

	// Add two messages.
	std::unique_ptr<Message> msg;
	msg = Message::New(port1, AllocMsg(str1), strlen(str1) + 1, nullptr,
	Message::kNormalPriority);
	queue.Enqueue(std::move(msg), false);
	msg = Message::New(port2, AllocMsg(str2), strlen(str2) + 1, nullptr,
	Message::kNormalPriority);
	queue.Enqueue(std::move(msg), false);

	EXPECT(!queue.IsEmpty());
	queue.Clear();
	EXPECT(queue.IsEmpty());
	}

	} // namespace dart