src/cobalt/media/base/ranges_unittest.cc - cobalt - Git at Google

 // Copyright (c) 2012 The Chromium 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 "cobalt/media/base/ranges.h"

 #include <sstream>

 #include "base/strings/string_piece.h"
 #include "starboard/types.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace cobalt {
 namespace media {

 // Human-readable output operator, for debugging/testability.
 template <class T>
 std::ostream& operator<<(std::ostream& os, const Ranges<T>& r) {
   os << "{ ";
   for (size_t i = 0; i < r.size(); ++i)
     os << "[" << r.start(i) << "," << r.end(i) << ") ";
   os << "}";
   return os;
 }

 // Helper method for asserting stringified form of |r| matches expectation.
 template <class T>
 static void ExpectRanges(const Ranges<T>& r,
                          const base::StringPiece& expected_string) {
   std::stringstream ss;
   ss << r;
   ASSERT_EQ(ss.str(), expected_string);
 }

 #define ASSERT_RANGES(ranges, expectation) \
   ASSERT_NO_FATAL_FAILURE(ExpectRanges(ranges, expectation));

 TEST(RangesTest, SimpleTests) {
   Ranges<int> r;
   ASSERT_EQ(r.size(), 0u) << r;
   ASSERT_EQ(r.Add(0, 1), 1u) << r;
   ASSERT_EQ(r.size(), 1u) << r;
   ASSERT_RANGES(r, "{ [0,1) }");
   ASSERT_EQ(r.Add(2, 3), 2u) << r;
   ASSERT_RANGES(r, "{ [0,1) [2,3) }");
   ASSERT_EQ(r.Add(1, 2), 1u) << r;
   ASSERT_RANGES(r, "{ [0,3) }");
   ASSERT_EQ(r.Add(1, 4), 1u) << r;
   ASSERT_RANGES(r, "{ [0,4) }");
   ASSERT_EQ(r.Add(7, 9), 2u) << r;
   ASSERT_EQ(r.Add(5, 6), 3u) << r;
   ASSERT_RANGES(r, "{ [0,4) [5,6) [7,9) }");
   ASSERT_EQ(r.Add(6, 7), 2u) << r;
   ASSERT_RANGES(r, "{ [0,4) [5,9) }");
 }

 TEST(RangesTest, ExtendRange) {
   Ranges<double> r;
   ASSERT_EQ(r.Add(0, 1), 1u) << r;
   ASSERT_EQ(r.Add(0.5, 1.5), 1u) << r;
   ASSERT_RANGES(r, "{ [0,1.5) }");

   r.clear();
   ASSERT_EQ(r.Add(0, 1), 1u) << r;
   ASSERT_EQ(r.Add(-0.5, 0.5), 1u) << r;
   ASSERT_RANGES(r, "{ [-0.5,1) }");

   r.clear();
   ASSERT_EQ(r.Add(0, 1), 1u) << r;
   ASSERT_EQ(r.Add(2, 3), 2u) << r;
   ASSERT_EQ(r.Add(4, 5), 3u) << r;
   ASSERT_EQ(r.Add(0.5, 1.5), 3u) << r;
   ASSERT_RANGES(r, "{ [0,1.5) [2,3) [4,5) }");

   r.clear();
   ASSERT_EQ(r.Add(0, 1), 1u) << r;
   ASSERT_EQ(r.Add(2, 3), 2u) << r;
   ASSERT_EQ(r.Add(4, 5), 3u) << r;
   ASSERT_EQ(r.Add(1.5, 2.5), 3u) << r;
   ASSERT_RANGES(r, "{ [0,1) [1.5,3) [4,5) }");
 }

 TEST(RangesTest, CoalesceRanges) {
   Ranges<double> r;
   ASSERT_EQ(r.Add(0, 1), 1u) << r;
   ASSERT_EQ(r.Add(2, 3), 2u) << r;
   ASSERT_EQ(r.Add(4, 5), 3u) << r;
   ASSERT_EQ(r.Add(0.5, 2.5), 2u) << r;
   ASSERT_RANGES(r, "{ [0,3) [4,5) }");

   r.clear();
   ASSERT_EQ(r.Add(0, 1), 1u) << r;
   ASSERT_EQ(r.Add(2, 3), 2u) << r;
   ASSERT_EQ(r.Add(4, 5), 3u) << r;
   ASSERT_EQ(r.Add(0.5, 4.5), 1u) << r;
   ASSERT_RANGES(r, "{ [0,5) }");

   r.clear();
   ASSERT_EQ(r.Add(0, 1), 1u) << r;
   ASSERT_EQ(r.Add(1, 2), 1u) << r;
   ASSERT_RANGES(r, "{ [0,2) }");
 }

 TEST(RangesTest, IntersectionWith) {
   Ranges<int> a;
   Ranges<int> b;

   ASSERT_EQ(a.Add(0, 1), 1u) << a;
   ASSERT_EQ(a.Add(4, 7), 2u) << a;
   ASSERT_EQ(a.Add(10, 12), 3u) << a;

   // Test intersections with an empty range.
   ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
   ASSERT_RANGES(b, "{ }");
   ASSERT_RANGES(a.IntersectionWith(b), "{ }");
   ASSERT_RANGES(b.IntersectionWith(a), "{ }");

   // Test intersections with a completely overlapping range.
   ASSERT_EQ(b.Add(-1, 13), 1u) << b;
   ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
   ASSERT_RANGES(b, "{ [-1,13) }");
   ASSERT_RANGES(a.IntersectionWith(b), "{ [0,1) [4,7) [10,12) }");
   ASSERT_RANGES(b.IntersectionWith(a), "{ [0,1) [4,7) [10,12) }");

   // Test intersections with a disjoint ranges.
   b.clear();
   ASSERT_EQ(b.Add(1, 4), 1u) << b;
   ASSERT_EQ(b.Add(8, 9), 2u) << b;
   ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
   ASSERT_RANGES(b, "{ [1,4) [8,9) }");
   ASSERT_RANGES(a.IntersectionWith(b), "{ }");
   ASSERT_RANGES(b.IntersectionWith(a), "{ }");

   // Test intersections with partially overlapping ranges.
   b.clear();
   ASSERT_EQ(b.Add(0, 3), 1u) << b;
   ASSERT_EQ(b.Add(5, 11), 2u) << b;
   ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
   ASSERT_RANGES(b, "{ [0,3) [5,11) }");
   ASSERT_RANGES(a.IntersectionWith(b), "{ [0,1) [5,7) [10,11) }");
   ASSERT_RANGES(b.IntersectionWith(a), "{ [0,1) [5,7) [10,11) }");

   // Test intersection with a range that starts at the beginning of the
   // first range and ends at the end of the last range.
   b.clear();
   ASSERT_EQ(b.Add(0, 12), 1u) << b;
   ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
   ASSERT_RANGES(b, "{ [0,12) }");
   ASSERT_RANGES(a.IntersectionWith(b), "{ [0,1) [4,7) [10,12) }");
   ASSERT_RANGES(b.IntersectionWith(a), "{ [0,1) [4,7) [10,12) }");
 }

 }  // namespace media
 }  // namespace cobalt
	// Copyright (c) 2012 The Chromium 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 "cobalt/media/base/ranges.h"

	#include <sstream>

	#include "base/strings/string_piece.h"
	#include "starboard/types.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace cobalt {
	namespace media {

	// Human-readable output operator, for debugging/testability.
	template <class T>
	std::ostream& operator<<(std::ostream& os, const Ranges<T>& r) {
	os << "{ ";
	for (size_t i = 0; i < r.size(); ++i)
	os << "[" << r.start(i) << "," << r.end(i) << ") ";
	os << "}";
	return os;
	}

	// Helper method for asserting stringified form of \|r\| matches expectation.
	template <class T>
	static void ExpectRanges(const Ranges<T>& r,
	const base::StringPiece& expected_string) {
	std::stringstream ss;
	ss << r;
	ASSERT_EQ(ss.str(), expected_string);
	}

	#define ASSERT_RANGES(ranges, expectation) \
	ASSERT_NO_FATAL_FAILURE(ExpectRanges(ranges, expectation));

	TEST(RangesTest, SimpleTests) {
	Ranges<int> r;
	ASSERT_EQ(r.size(), 0u) << r;
	ASSERT_EQ(r.Add(0, 1), 1u) << r;
	ASSERT_EQ(r.size(), 1u) << r;
	ASSERT_RANGES(r, "{ [0,1) }");
	ASSERT_EQ(r.Add(2, 3), 2u) << r;
	ASSERT_RANGES(r, "{ [0,1) [2,3) }");
	ASSERT_EQ(r.Add(1, 2), 1u) << r;
	ASSERT_RANGES(r, "{ [0,3) }");
	ASSERT_EQ(r.Add(1, 4), 1u) << r;
	ASSERT_RANGES(r, "{ [0,4) }");
	ASSERT_EQ(r.Add(7, 9), 2u) << r;
	ASSERT_EQ(r.Add(5, 6), 3u) << r;
	ASSERT_RANGES(r, "{ [0,4) [5,6) [7,9) }");
	ASSERT_EQ(r.Add(6, 7), 2u) << r;
	ASSERT_RANGES(r, "{ [0,4) [5,9) }");
	}

	TEST(RangesTest, ExtendRange) {
	Ranges<double> r;
	ASSERT_EQ(r.Add(0, 1), 1u) << r;
	ASSERT_EQ(r.Add(0.5, 1.5), 1u) << r;
	ASSERT_RANGES(r, "{ [0,1.5) }");

	r.clear();
	ASSERT_EQ(r.Add(0, 1), 1u) << r;
	ASSERT_EQ(r.Add(-0.5, 0.5), 1u) << r;
	ASSERT_RANGES(r, "{ [-0.5,1) }");

	r.clear();
	ASSERT_EQ(r.Add(0, 1), 1u) << r;
	ASSERT_EQ(r.Add(2, 3), 2u) << r;
	ASSERT_EQ(r.Add(4, 5), 3u) << r;
	ASSERT_EQ(r.Add(0.5, 1.5), 3u) << r;
	ASSERT_RANGES(r, "{ [0,1.5) [2,3) [4,5) }");

	r.clear();
	ASSERT_EQ(r.Add(0, 1), 1u) << r;
	ASSERT_EQ(r.Add(2, 3), 2u) << r;
	ASSERT_EQ(r.Add(4, 5), 3u) << r;
	ASSERT_EQ(r.Add(1.5, 2.5), 3u) << r;
	ASSERT_RANGES(r, "{ [0,1) [1.5,3) [4,5) }");
	}

	TEST(RangesTest, CoalesceRanges) {
	Ranges<double> r;
	ASSERT_EQ(r.Add(0, 1), 1u) << r;
	ASSERT_EQ(r.Add(2, 3), 2u) << r;
	ASSERT_EQ(r.Add(4, 5), 3u) << r;
	ASSERT_EQ(r.Add(0.5, 2.5), 2u) << r;
	ASSERT_RANGES(r, "{ [0,3) [4,5) }");

	r.clear();
	ASSERT_EQ(r.Add(0, 1), 1u) << r;
	ASSERT_EQ(r.Add(2, 3), 2u) << r;
	ASSERT_EQ(r.Add(4, 5), 3u) << r;
	ASSERT_EQ(r.Add(0.5, 4.5), 1u) << r;
	ASSERT_RANGES(r, "{ [0,5) }");

	r.clear();
	ASSERT_EQ(r.Add(0, 1), 1u) << r;
	ASSERT_EQ(r.Add(1, 2), 1u) << r;
	ASSERT_RANGES(r, "{ [0,2) }");
	}

	TEST(RangesTest, IntersectionWith) {
	Ranges<int> a;
	Ranges<int> b;

	ASSERT_EQ(a.Add(0, 1), 1u) << a;
	ASSERT_EQ(a.Add(4, 7), 2u) << a;
	ASSERT_EQ(a.Add(10, 12), 3u) << a;

	// Test intersections with an empty range.
	ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
	ASSERT_RANGES(b, "{ }");
	ASSERT_RANGES(a.IntersectionWith(b), "{ }");
	ASSERT_RANGES(b.IntersectionWith(a), "{ }");

	// Test intersections with a completely overlapping range.
	ASSERT_EQ(b.Add(-1, 13), 1u) << b;
	ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
	ASSERT_RANGES(b, "{ [-1,13) }");
	ASSERT_RANGES(a.IntersectionWith(b), "{ [0,1) [4,7) [10,12) }");
	ASSERT_RANGES(b.IntersectionWith(a), "{ [0,1) [4,7) [10,12) }");

	// Test intersections with a disjoint ranges.
	b.clear();
	ASSERT_EQ(b.Add(1, 4), 1u) << b;
	ASSERT_EQ(b.Add(8, 9), 2u) << b;
	ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
	ASSERT_RANGES(b, "{ [1,4) [8,9) }");
	ASSERT_RANGES(a.IntersectionWith(b), "{ }");
	ASSERT_RANGES(b.IntersectionWith(a), "{ }");

	// Test intersections with partially overlapping ranges.
	b.clear();
	ASSERT_EQ(b.Add(0, 3), 1u) << b;
	ASSERT_EQ(b.Add(5, 11), 2u) << b;
	ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
	ASSERT_RANGES(b, "{ [0,3) [5,11) }");
	ASSERT_RANGES(a.IntersectionWith(b), "{ [0,1) [5,7) [10,11) }");
	ASSERT_RANGES(b.IntersectionWith(a), "{ [0,1) [5,7) [10,11) }");

	// Test intersection with a range that starts at the beginning of the
	// first range and ends at the end of the last range.
	b.clear();
	ASSERT_EQ(b.Add(0, 12), 1u) << b;
	ASSERT_RANGES(a, "{ [0,1) [4,7) [10,12) }");
	ASSERT_RANGES(b, "{ [0,12) }");
	ASSERT_RANGES(a.IntersectionWith(b), "{ [0,1) [4,7) [10,12) }");
	ASSERT_RANGES(b.IntersectionWith(a), "{ [0,1) [4,7) [10,12) }");
	}

	} // namespace media
	} // namespace cobalt