/* * Copyright (c) 2013, Google Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include using namespace WebCore; namespace TestWebKitAPI { static std::string ToString(const TimeRanges& ranges) { std::stringstream ss; ss << "{"; for (unsigned i = 0; i < ranges.length(); ++i) ss << " [" << ranges.start(i).releaseReturnValue() << "," << ranges.end(i).releaseReturnValue() << ")"; ss << " }"; return ss.str(); } #define ASSERT_RANGE(expected, range) EXPECT_EQ(expected, ToString(*range)) TEST(TimeRanges, Empty) { ASSERT_RANGE("{ }", TimeRanges::create().ptr()); } TEST(TimeRanges, SingleRange) { ASSERT_RANGE("{ [1,2) }", TimeRanges::create(1, 2).ptr()); } TEST(TimeRanges, AddOrder) { RefPtr rangeA = TimeRanges::create(); RefPtr rangeB = TimeRanges::create(); rangeA->add(0, 2); rangeA->add(3, 4); rangeA->add(5, 100); std::string expected = "{ [0,2) [3,4) [5,100) }"; ASSERT_RANGE(expected, rangeA); // Add the values in rangeA to rangeB in reverse order. for (int i = rangeA->length() - 1; i >= 0; --i) rangeB->add(rangeA->start(i).releaseReturnValue(), rangeA->end(i).releaseReturnValue()); ASSERT_RANGE(expected, rangeB); } TEST(TimeRanges, OverlappingAdds) { RefPtr ranges = TimeRanges::create(); ranges->add(0, 2); ranges->add(10, 11); ASSERT_RANGE("{ [0,2) [10,11) }", ranges); ranges->add(0, 2); ASSERT_RANGE("{ [0,2) [10,11) }", ranges); ranges->add(2, 3); ASSERT_RANGE("{ [0,3) [10,11) }", ranges); ranges->add(2, 6); ASSERT_RANGE("{ [0,6) [10,11) }", ranges); ranges->add(9, 10); ASSERT_RANGE("{ [0,6) [9,11) }", ranges); ranges->add(8, 10); ASSERT_RANGE("{ [0,6) [8,11) }", ranges); ranges->add(-1, 7); ASSERT_RANGE("{ [-1,7) [8,11) }", ranges); ranges->add(6, 9); ASSERT_RANGE("{ [-1,11) }", ranges); } TEST(TimeRanges, IntersectWith_Self) { RefPtr ranges = TimeRanges::create(0, 2); ASSERT_RANGE("{ [0,2) }", ranges); ranges->intersectWith(*ranges.get()); ASSERT_RANGE("{ [0,2) }", ranges); } TEST(TimeRanges, IntersectWith_IdenticalRange) { RefPtr rangesA = TimeRanges::create(0, 2); RefPtr rangesB = rangesA->copy(); ASSERT_RANGE("{ [0,2) }", rangesA); ASSERT_RANGE("{ [0,2) }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ [0,2) }", rangesA); ASSERT_RANGE("{ [0,2) }", rangesB); } TEST(TimeRanges, IntersectWith_Empty) { RefPtr rangesA = TimeRanges::create(0, 2); RefPtr rangesB = TimeRanges::create(); ASSERT_RANGE("{ [0,2) }", rangesA); ASSERT_RANGE("{ }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ }", rangesA); ASSERT_RANGE("{ }", rangesB); } TEST(TimeRanges, IntersectWith_DisjointRanges1) { RefPtr rangesA = TimeRanges::create(); RefPtr rangesB = TimeRanges::create(); rangesA->add(0, 1); rangesA->add(4, 5); rangesB->add(2, 3); rangesB->add(6, 7); ASSERT_RANGE("{ [0,1) [4,5) }", rangesA); ASSERT_RANGE("{ [2,3) [6,7) }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ }", rangesA); ASSERT_RANGE("{ [2,3) [6,7) }", rangesB); } TEST(TimeRanges, IntersectWith_DisjointRanges2) { RefPtr rangesA = TimeRanges::create(); RefPtr rangesB = TimeRanges::create(); rangesA->add(0, 1); rangesA->add(4, 5); rangesB->add(1, 4); rangesB->add(5, 7); ASSERT_RANGE("{ [0,1) [4,5) }", rangesA); ASSERT_RANGE("{ [1,4) [5,7) }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ }", rangesA); ASSERT_RANGE("{ [1,4) [5,7) }", rangesB); } TEST(TimeRanges, IntersectWith_CompleteOverlap1) { RefPtr rangesA = TimeRanges::create(); RefPtr rangesB = TimeRanges::create(); rangesA->add(1, 3); rangesA->add(4, 5); rangesA->add(6, 9); rangesB->add(0, 10); ASSERT_RANGE("{ [1,3) [4,5) [6,9) }", rangesA); ASSERT_RANGE("{ [0,10) }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ [1,3) [4,5) [6,9) }", rangesA); ASSERT_RANGE("{ [0,10) }", rangesB); } TEST(TimeRanges, IntersectWith_CompleteOverlap2) { RefPtr rangesA = TimeRanges::create(); RefPtr rangesB = TimeRanges::create(); rangesA->add(1, 3); rangesA->add(4, 5); rangesA->add(6, 9); rangesB->add(1, 9); ASSERT_RANGE("{ [1,3) [4,5) [6,9) }", rangesA); ASSERT_RANGE("{ [1,9) }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ [1,3) [4,5) [6,9) }", rangesA); ASSERT_RANGE("{ [1,9) }", rangesB); } TEST(TimeRanges, IntersectWith_Gaps1) { RefPtr rangesA = TimeRanges::create(); RefPtr rangesB = TimeRanges::create(); rangesA->add(0, 2); rangesA->add(4, 6); rangesB->add(1, 5); ASSERT_RANGE("{ [0,2) [4,6) }", rangesA); ASSERT_RANGE("{ [1,5) }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ [1,2) [4,5) }", rangesA); ASSERT_RANGE("{ [1,5) }", rangesB); } TEST(TimeRanges, IntersectWith_Gaps2) { RefPtr rangesA = TimeRanges::create(); RefPtr rangesB = TimeRanges::create(); rangesA->add(0, 2); rangesA->add(4, 6); rangesA->add(8, 10); rangesB->add(1, 9); ASSERT_RANGE("{ [0,2) [4,6) [8,10) }", rangesA); ASSERT_RANGE("{ [1,9) }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ [1,2) [4,6) [8,9) }", rangesA); ASSERT_RANGE("{ [1,9) }", rangesB); } TEST(TimeRanges, IntersectWith_Gaps3) { RefPtr rangesA = TimeRanges::create(); RefPtr rangesB = TimeRanges::create(); rangesA->add(0, 2); rangesA->add(4, 7); rangesA->add(8, 10); rangesB->add(1, 5); rangesB->add(6, 9); ASSERT_RANGE("{ [0,2) [4,7) [8,10) }", rangesA); ASSERT_RANGE("{ [1,5) [6,9) }", rangesB); rangesA->intersectWith(*rangesB.get()); ASSERT_RANGE("{ [1,2) [4,5) [6,7) [8,9) }", rangesA); ASSERT_RANGE("{ [1,5) [6,9) }", rangesB); } }