lldb/unittests/Utility/StreamTeeTest.cpp - llvm-project - Git at Google

 //===-- StreamTeeTest.cpp -------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "lldb/Utility/StreamTee.h"
 #include "lldb/Utility/StreamString.h"
 #include "gtest/gtest.h"

 using namespace lldb_private;

 TEST(StreamTeeTest, DefaultConstructor) {
   // Test the default constructor.
   StreamTee tee;
   ASSERT_EQ(0U, tee.GetNumStreams());
 }

 TEST(StreamTeeTest, Constructor1Stream) {
   // Test the constructor for a single stream.
   lldb::StreamSP s1(std::make_shared<StreamString>());
   StreamTee tee(s1);

   ASSERT_EQ(1U, tee.GetNumStreams());
   EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
 }

 TEST(StreamTeeTest, Constructor2Streams) {
   // Test the constructor for two streams.
   lldb::StreamSP s1(std::make_shared<StreamString>());
   lldb::StreamSP s2(std::make_shared<StreamString>());
   StreamTee tee(s1, s2);

   ASSERT_EQ(2U, tee.GetNumStreams());
   EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
   EXPECT_EQ(s2, tee.GetStreamAtIndex(1U));
 }

 TEST(StreamTeeTest, CopyConstructor) {
   // Test the copy constructor.
   lldb::StreamSP s1(std::make_shared<StreamString>());
   lldb::StreamSP s2(std::make_shared<StreamString>());
   StreamTee tee1(s1, s2);
   StreamTee tee2(tee1);

   ASSERT_EQ(2U, tee2.GetNumStreams());
   EXPECT_EQ(s1, tee2.GetStreamAtIndex(0U));
   EXPECT_EQ(s2, tee2.GetStreamAtIndex(1U));
 }

 TEST(StreamTeeTest, Assignment) {
   // Test the assignment of StreamTee.
   lldb::StreamSP s1(std::make_shared<StreamString>());
   lldb::StreamSP s2(std::make_shared<StreamString>());
   StreamTee tee1(s1, s2);
   StreamTee tee2 = tee1;

   ASSERT_EQ(2U, tee2.GetNumStreams());
   EXPECT_EQ(s1, tee2.GetStreamAtIndex(0U));
   EXPECT_EQ(s2, tee2.GetStreamAtIndex(1U));
 }

 TEST(StreamTeeTest, Write) {
   // Test that write is sent out to all children.
   auto ss1 = new StreamString();
   auto ss2 = new StreamString();
   lldb::StreamSP s1(ss1);
   lldb::StreamSP s2(ss2);
   StreamTee tee(s1, s2);

   tee << "foo";
   tee.Flush();

   ASSERT_EQ(2U, tee.GetNumStreams());
   EXPECT_EQ("foo", ss1->GetString().str());
   EXPECT_EQ("foo", ss2->GetString().str());

   tee << "bar";
   tee.Flush();
   EXPECT_EQ("foobar", ss1->GetString().str());
   EXPECT_EQ("foobar", ss2->GetString().str());
 }

 namespace {
   struct FlushTestStream : public Stream {
     unsigned m_flush_count = false;
     void Flush() override {
       ++m_flush_count;
     }
     size_t WriteImpl(const void *src, size_t src_len) override {
       return src_len;
     }
   };
 }

 TEST(StreamTeeTest, Flush) {
   // Check that Flush is distributed to all streams.
   auto fs1 = new FlushTestStream();
   auto fs2 = new FlushTestStream();
   lldb::StreamSP s1(fs1);
   lldb::StreamSP s2(fs2);
   StreamTee tee(s1, s2);

   tee << "foo";
   tee.Flush();

   ASSERT_EQ(2U, tee.GetNumStreams());
   EXPECT_EQ(1U, fs1->m_flush_count);
   EXPECT_EQ(1U, fs2->m_flush_count);

   tee << "bar";
   tee.Flush();
   EXPECT_EQ(2U, fs1->m_flush_count);
   EXPECT_EQ(2U, fs2->m_flush_count);
 }

 TEST(StreamTeeTest, AppendStream) {
   // Append new streams to our StreamTee.
   auto ss1 = new StreamString();
   auto ss2 = new StreamString();
   lldb::StreamSP s1(ss1);
   lldb::StreamSP s2(ss2);

   StreamTee tee;

   ASSERT_EQ(0U, tee.GetNumStreams());

   tee.AppendStream(s1);
   ASSERT_EQ(1U, tee.GetNumStreams());
   EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));

   tee.AppendStream(s2);
   ASSERT_EQ(2U, tee.GetNumStreams());
   EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
   EXPECT_EQ(s2, tee.GetStreamAtIndex(1U));
 }

 TEST(StreamTeeTest, GetStreamAtIndexOutOfBounds) {
   // The index we check for is not in the bounds of the StreamTee.
   lldb::StreamSP s1(std::make_shared<StreamString>());
   StreamTee tee(s1);

   ASSERT_EQ(1U, tee.GetNumStreams());
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1));
 }

 TEST(StreamTeeTest, GetStreamAtIndexOutOfBoundsEmpty) {
   // Same as above, but with an empty StreamTee.
   StreamTee tee;
   ASSERT_EQ(0U, tee.GetNumStreams());
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(0U));
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1U));
 }

 TEST(StreamTeeTest, SetStreamAtIndexOverwrite) {
   // We overwrite an existing stream at a given index.
   lldb::StreamSP s1(std::make_shared<StreamString>());
   StreamTee tee(s1);

   ASSERT_EQ(1U, tee.GetNumStreams());
   EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1U));

   lldb::StreamSP s2(std::make_shared<StreamString>());
   tee.SetStreamAtIndex(0U, s2);
   EXPECT_EQ(1U, tee.GetNumStreams());
   EXPECT_EQ(s2, tee.GetStreamAtIndex(0U));
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1));
 }

 TEST(StreamTeeTest, SetStreamAtIndexOutOfBounds) {
   // We place a new stream out of the bounds of the current StreamTee.
   lldb::StreamSP s1(std::make_shared<StreamString>());
   StreamTee tee(s1);

   ASSERT_EQ(1U, tee.GetNumStreams());
   EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1U));

   // Place a new stream out of bounds of the current array. The StreamTee should
   // resize itself until it can contain this index.
   lldb::StreamSP s2(std::make_shared<StreamString>());
   tee.SetStreamAtIndex(4U, s2);
   // Check that the vector has been resized.
   EXPECT_EQ(5U, tee.GetNumStreams());
   // Is our stream at the right place?
   EXPECT_EQ(s2, tee.GetStreamAtIndex(4U));

   // Existing stream should still be there.
   EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
   // Other elements are all invalid StreamSPs.
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1U));
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(2U));
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(3U));
   EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(5U));
 }
	//===-- StreamTeeTest.cpp -------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "lldb/Utility/StreamTee.h"
	#include "lldb/Utility/StreamString.h"
	#include "gtest/gtest.h"

	using namespace lldb_private;

	TEST(StreamTeeTest, DefaultConstructor) {
	// Test the default constructor.
	StreamTee tee;
	ASSERT_EQ(0U, tee.GetNumStreams());
	}

	TEST(StreamTeeTest, Constructor1Stream) {
	// Test the constructor for a single stream.
	lldb::StreamSP s1(std::make_shared<StreamString>());
	StreamTee tee(s1);

	ASSERT_EQ(1U, tee.GetNumStreams());
	EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
	}

	TEST(StreamTeeTest, Constructor2Streams) {
	// Test the constructor for two streams.
	lldb::StreamSP s1(std::make_shared<StreamString>());
	lldb::StreamSP s2(std::make_shared<StreamString>());
	StreamTee tee(s1, s2);

	ASSERT_EQ(2U, tee.GetNumStreams());
	EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
	EXPECT_EQ(s2, tee.GetStreamAtIndex(1U));
	}

	TEST(StreamTeeTest, CopyConstructor) {
	// Test the copy constructor.
	lldb::StreamSP s1(std::make_shared<StreamString>());
	lldb::StreamSP s2(std::make_shared<StreamString>());
	StreamTee tee1(s1, s2);
	StreamTee tee2(tee1);

	ASSERT_EQ(2U, tee2.GetNumStreams());
	EXPECT_EQ(s1, tee2.GetStreamAtIndex(0U));
	EXPECT_EQ(s2, tee2.GetStreamAtIndex(1U));
	}

	TEST(StreamTeeTest, Assignment) {
	// Test the assignment of StreamTee.
	lldb::StreamSP s1(std::make_shared<StreamString>());
	lldb::StreamSP s2(std::make_shared<StreamString>());
	StreamTee tee1(s1, s2);
	StreamTee tee2 = tee1;

	ASSERT_EQ(2U, tee2.GetNumStreams());
	EXPECT_EQ(s1, tee2.GetStreamAtIndex(0U));
	EXPECT_EQ(s2, tee2.GetStreamAtIndex(1U));
	}

	TEST(StreamTeeTest, Write) {
	// Test that write is sent out to all children.
	auto ss1 = new StreamString();
	auto ss2 = new StreamString();
	lldb::StreamSP s1(ss1);
	lldb::StreamSP s2(ss2);
	StreamTee tee(s1, s2);

	tee << "foo";
	tee.Flush();

	ASSERT_EQ(2U, tee.GetNumStreams());
	EXPECT_EQ("foo", ss1->GetString().str());
	EXPECT_EQ("foo", ss2->GetString().str());

	tee << "bar";
	tee.Flush();
	EXPECT_EQ("foobar", ss1->GetString().str());
	EXPECT_EQ("foobar", ss2->GetString().str());
	}

	namespace {
	struct FlushTestStream : public Stream {
	unsigned m_flush_count = false;
	void Flush() override {
	++m_flush_count;
	}
	size_t WriteImpl(const void *src, size_t src_len) override {
	return src_len;
	}
	};
	}

	TEST(StreamTeeTest, Flush) {
	// Check that Flush is distributed to all streams.
	auto fs1 = new FlushTestStream();
	auto fs2 = new FlushTestStream();
	lldb::StreamSP s1(fs1);
	lldb::StreamSP s2(fs2);
	StreamTee tee(s1, s2);

	tee << "foo";
	tee.Flush();

	ASSERT_EQ(2U, tee.GetNumStreams());
	EXPECT_EQ(1U, fs1->m_flush_count);
	EXPECT_EQ(1U, fs2->m_flush_count);

	tee << "bar";
	tee.Flush();
	EXPECT_EQ(2U, fs1->m_flush_count);
	EXPECT_EQ(2U, fs2->m_flush_count);
	}

	TEST(StreamTeeTest, AppendStream) {
	// Append new streams to our StreamTee.
	auto ss1 = new StreamString();
	auto ss2 = new StreamString();
	lldb::StreamSP s1(ss1);
	lldb::StreamSP s2(ss2);

	StreamTee tee;

	ASSERT_EQ(0U, tee.GetNumStreams());

	tee.AppendStream(s1);
	ASSERT_EQ(1U, tee.GetNumStreams());
	EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));

	tee.AppendStream(s2);
	ASSERT_EQ(2U, tee.GetNumStreams());
	EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
	EXPECT_EQ(s2, tee.GetStreamAtIndex(1U));
	}

	TEST(StreamTeeTest, GetStreamAtIndexOutOfBounds) {
	// The index we check for is not in the bounds of the StreamTee.
	lldb::StreamSP s1(std::make_shared<StreamString>());
	StreamTee tee(s1);

	ASSERT_EQ(1U, tee.GetNumStreams());
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1));
	}

	TEST(StreamTeeTest, GetStreamAtIndexOutOfBoundsEmpty) {
	// Same as above, but with an empty StreamTee.
	StreamTee tee;
	ASSERT_EQ(0U, tee.GetNumStreams());
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(0U));
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1U));
	}

	TEST(StreamTeeTest, SetStreamAtIndexOverwrite) {
	// We overwrite an existing stream at a given index.
	lldb::StreamSP s1(std::make_shared<StreamString>());
	StreamTee tee(s1);

	ASSERT_EQ(1U, tee.GetNumStreams());
	EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1U));

	lldb::StreamSP s2(std::make_shared<StreamString>());
	tee.SetStreamAtIndex(0U, s2);
	EXPECT_EQ(1U, tee.GetNumStreams());
	EXPECT_EQ(s2, tee.GetStreamAtIndex(0U));
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1));
	}

	TEST(StreamTeeTest, SetStreamAtIndexOutOfBounds) {
	// We place a new stream out of the bounds of the current StreamTee.
	lldb::StreamSP s1(std::make_shared<StreamString>());
	StreamTee tee(s1);

	ASSERT_EQ(1U, tee.GetNumStreams());
	EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1U));

	// Place a new stream out of bounds of the current array. The StreamTee should
	// resize itself until it can contain this index.
	lldb::StreamSP s2(std::make_shared<StreamString>());
	tee.SetStreamAtIndex(4U, s2);
	// Check that the vector has been resized.
	EXPECT_EQ(5U, tee.GetNumStreams());
	// Is our stream at the right place?
	EXPECT_EQ(s2, tee.GetStreamAtIndex(4U));

	// Existing stream should still be there.
	EXPECT_EQ(s1, tee.GetStreamAtIndex(0U));
	// Other elements are all invalid StreamSPs.
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(1U));
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(2U));
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(3U));
	EXPECT_EQ(lldb::StreamSP(), tee.GetStreamAtIndex(5U));
	}