// Copyright 2017 Google LLC. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #include #include #include #include #include namespace shaka { namespace media { namespace { const uint32_t kStreamId = 0; const int32_t kTimeScale = 1000; const char* kNoId = ""; void ExpectNoStyle(const TextFragmentStyle& style) { EXPECT_FALSE(style.underline); EXPECT_FALSE(style.bold); EXPECT_FALSE(style.italic); } void ExpectPlainCueWithBody(const TextFragment& fragment, const std::string& expected) { ExpectNoStyle(fragment.style); ASSERT_TRUE(fragment.body.empty()); ASSERT_FALSE(fragment.newline); if (expected.empty()) { EXPECT_TRUE(fragment.sub_fragments.empty()); } else { ASSERT_EQ(fragment.sub_fragments.size(), 1u); ExpectNoStyle(fragment.sub_fragments[0].style); EXPECT_EQ(fragment.sub_fragments[0].body, expected); } } } // namespace class WebVttParserTest : public testing::Test { protected: void SetUpAndInitialize() { parser_ = std::make_shared(); parser_->Init( std::bind(&WebVttParserTest::InitCB, this, std::placeholders::_1), std::bind(&WebVttParserTest::NewMediaSampleCB, this, std::placeholders::_1, std::placeholders::_2), std::bind(&WebVttParserTest::NewTextSampleCB, this, std::placeholders::_1, std::placeholders::_2), nullptr); } void InitCB(const std::vector>& streams) { streams_ = streams; } bool NewMediaSampleCB(uint32_t stream_id, std::shared_ptr sample) { ADD_FAILURE() << "Should not get media samples"; return false; } bool NewTextSampleCB(uint32_t stream_id, std::shared_ptr sample) { EXPECT_EQ(stream_id, kStreamId); samples_.emplace_back(std::move(sample)); return true; } std::shared_ptr parser_; std::vector> streams_; std::vector> samples_; }; TEST_F(WebVttParserTest, FailToParseEmptyFile) { const uint8_t text[] = ""; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_TRUE(streams_.empty()); ASSERT_TRUE(samples_.empty()); } TEST_F(WebVttParserTest, ParseOnlyHeader) { const uint8_t text[] = "WEBVTT\n" "\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_TRUE(streams_.empty()); ASSERT_TRUE(samples_.empty()); } TEST_F(WebVttParserTest, ParseHeaderWithBOM) { const uint8_t text[] = "\xEF\xBB\xBFWEBVTT\n" "\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_TRUE(streams_.empty()); ASSERT_TRUE(samples_.empty()); } TEST_F(WebVttParserTest, FailToParseHeaderWrongWord) { const uint8_t text[] = "NOT WEBVTT\n" "\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_FALSE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(streams_.empty()); ASSERT_TRUE(samples_.empty()); } TEST_F(WebVttParserTest, FailToParseHeaderNotOneLine) { const uint8_t text[] = "WEBVTT\n" "WEBVTT\n" "\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_FALSE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(streams_.empty()); ASSERT_TRUE(samples_.empty()); } TEST_F(WebVttParserTest, SendsStreamInfo) { const uint8_t text[] = "WEBVTT\n" "\n" "00:00:00.000 --> 00:01:00.000\n" "Testing\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); EXPECT_EQ(streams_[0]->time_scale(), kTimeScale); EXPECT_EQ(streams_[0]->is_encrypted(), false); EXPECT_EQ(streams_[0]->codec(), kCodecWebVtt); EXPECT_EQ(streams_[0]->codec_string(), "wvtt"); } TEST_F(WebVttParserTest, IgnoresZeroDurationCues) { const uint8_t text[] = "WEBVTT\n" "\n" "00:01:00.000 --> 00:01:00.000\n" "This subtitle would never show\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_TRUE(samples_.empty()); } TEST_F(WebVttParserTest, ParseOneCue) { const uint8_t text[] = "WEBVTT\n" "\n" "00:01:00.000 --> 01:00:00.000\n" "subtitle\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); EXPECT_EQ(samples_[0]->id(), kNoId); EXPECT_EQ(samples_[0]->start_time(), 60000u); EXPECT_EQ(samples_[0]->duration(), 3540000u); ExpectPlainCueWithBody(samples_[0]->body(), "subtitle"); // No settings const auto& settings = samples_[0]->settings(); EXPECT_FALSE(settings.line); EXPECT_FALSE(settings.position); EXPECT_FALSE(settings.width); EXPECT_FALSE(settings.height); EXPECT_EQ(settings.region, ""); EXPECT_EQ(settings.writing_direction, WritingDirection::kHorizontal); EXPECT_EQ(settings.text_alignment, TextAlignment::kCenter); } TEST_F(WebVttParserTest, ParseOneCueWithoutNewLine) { const uint8_t text[] = "WEBVTT\n" "\n" "00:01:00.000 --> 01:00:00.000\n" "subtitle"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); EXPECT_EQ(samples_[0]->id(), kNoId); EXPECT_EQ(samples_[0]->start_time(), 60000u); EXPECT_EQ(samples_[0]->duration(), 3540000u); ExpectPlainCueWithBody(samples_[0]->body(), "subtitle"); // No settings const auto& settings = samples_[0]->settings(); EXPECT_FALSE(settings.line); EXPECT_FALSE(settings.position); EXPECT_FALSE(settings.width); EXPECT_FALSE(settings.height); EXPECT_EQ(settings.region, ""); EXPECT_EQ(settings.writing_direction, WritingDirection::kHorizontal); EXPECT_EQ(settings.text_alignment, TextAlignment::kCenter); } TEST_F(WebVttParserTest, ParseOneCueWithStyle) { const uint8_t text[] = "WEBVTT\n" "\n" "STYLE\n" "::cue { color:lime }\n" "\n" "REGION\n" "id:scroll\n" "scroll:up\n" "\n" "00:01:00.000 --> 01:00:00.000\n" "subtitle\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); auto* stream = static_cast(streams_[0].get()); EXPECT_EQ(stream->css_styles(), "::cue { color:lime }"); EXPECT_EQ(samples_[0]->id(), kNoId); EXPECT_EQ(samples_[0]->start_time(), 60000u); EXPECT_EQ(samples_[0]->duration(), 3540000u); ExpectPlainCueWithBody(samples_[0]->body(), "subtitle"); } TEST_F(WebVttParserTest, ParseOneEmptyCue) { const uint8_t text[] = "WEBVTT\n" "\n" "00:01:00.000 --> 01:00:00.000\n" "\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); ExpectPlainCueWithBody(samples_[0]->body(), ""); } TEST_F(WebVttParserTest, FailToParseCueWithArrowInId) { const uint8_t text[] = "WEBVTT\n" "\n" "-->\n" "00:01:00.000 --> 01:00:00.000\n" "subtitle\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_FALSE(parser_->Flush()); } TEST_F(WebVttParserTest, ParseOneCueWithId) { const uint8_t text[] = "WEBVTT\n" "\n" "id\n" "00:01:00.000 --> 01:00:00.000\n" "subtitle\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); EXPECT_EQ(samples_[0]->id(), "id"); ExpectPlainCueWithBody(samples_[0]->body(), "subtitle"); } TEST_F(WebVttParserTest, ParseOneEmptyCueWithId) { const uint8_t text[] = "WEBVTT\n" "\n" "id\n" "00:01:00.000 --> 01:00:00.000\n" "\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); EXPECT_EQ(samples_[0]->id(), "id"); ExpectPlainCueWithBody(samples_[0]->body(), ""); } TEST_F(WebVttParserTest, ParseSettingSize) { const uint8_t text[] = "WEBVTT\n" "\n" "00:01:00.000 --> 01:00:00.000 size:50%\n" "subtitle\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); ASSERT_TRUE(samples_[0]->settings().width); EXPECT_EQ(samples_[0]->settings().width->type, TextUnitType::kPercent); EXPECT_EQ(samples_[0]->settings().width->value, 50.0f); } TEST_F(WebVttParserTest, ParseOneCueWithManySettings) { const uint8_t text[] = "WEBVTT\n" "\n" "00:01:00.000 --> 01:00:00.000 line:5 vertical:lr region:foo" " align:right position:20%\n" "subtitle\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); EXPECT_EQ(samples_[0]->settings().writing_direction, WritingDirection::kVerticalGrowingRight); EXPECT_EQ(samples_[0]->settings().text_alignment, TextAlignment::kRight); EXPECT_FALSE(samples_[0]->settings().width); ASSERT_TRUE(samples_[0]->settings().position); EXPECT_EQ(samples_[0]->settings().position->type, TextUnitType::kPercent); EXPECT_EQ(samples_[0]->settings().position->value, 20.0f); ASSERT_TRUE(samples_[0]->settings().line); EXPECT_EQ(samples_[0]->settings().line->type, TextUnitType::kLines); EXPECT_EQ(samples_[0]->settings().line->value, 5.0f); } TEST_F(WebVttParserTest, ParseRegions) { const uint8_t text[] = "WEBVTT\n" "\n" "REGION\n" "id:foo\n" "width:20%\n" "lines:6\n" "viewportanchor:25%,75%\n" "scroll:up\n" "\n" "00:01:00.000 --> 01:00:00.000 region:foo\n" "subtitle\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); auto* stream = static_cast(streams_[0].get()); const auto& regions = stream->regions(); ASSERT_EQ(regions.size(), 1u); ASSERT_EQ(regions.count("foo"), 1u); EXPECT_EQ(samples_[0]->settings().region, "foo"); const auto& region = regions.at("foo"); EXPECT_EQ(region.width.value, 20.0f); EXPECT_EQ(region.width.type, TextUnitType::kPercent); EXPECT_EQ(region.height.value, 6.0f); EXPECT_EQ(region.height.type, TextUnitType::kLines); EXPECT_EQ(region.window_anchor_x.value, 25.0f); EXPECT_EQ(region.window_anchor_x.type, TextUnitType::kPercent); EXPECT_EQ(region.window_anchor_y.value, 75.0f); EXPECT_EQ(region.window_anchor_y.type, TextUnitType::kPercent); EXPECT_TRUE(region.scroll); } TEST_F(WebVttParserTest, ParseRegionsMaxPercent) { const uint8_t text[] = "WEBVTT\n" "\n" "REGION\n" "id:foo\n" "width:20%\n" "lines:6\n" "viewportanchor:25%,100%\n" "scroll:up\n" "\n" "00:01:00.000 --> 01:00:00.000 region:foo\n" "subtitle\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 1u); auto* stream = static_cast(streams_[0].get()); const auto& regions = stream->regions(); ASSERT_EQ(regions.size(), 1u); ASSERT_EQ(regions.count("foo"), 1u); EXPECT_EQ(samples_[0]->settings().region, "foo"); const auto& region = regions.at("foo"); EXPECT_EQ(region.width.value, 20.0f); EXPECT_EQ(region.width.type, TextUnitType::kPercent); EXPECT_EQ(region.height.value, 6.0f); EXPECT_EQ(region.height.type, TextUnitType::kLines); EXPECT_EQ(region.window_anchor_x.value, 25.0f); EXPECT_EQ(region.window_anchor_x.type, TextUnitType::kPercent); EXPECT_EQ(region.window_anchor_y.value, 100.0f); EXPECT_EQ(region.window_anchor_y.type, TextUnitType::kPercent); EXPECT_TRUE(region.scroll); } // Verify that a typical case with mulitple cues work. TEST_F(WebVttParserTest, ParseMultipleCues) { const uint8_t text[] = "WEBVTT\n" "\n" "00:00:01.000 --> 00:00:05.200\n" "subtitle A\n" "\n" "00:00:02.321 --> 00:00:07.000\n" "subtitle B\n" "\n" "00:00:05.800 --> 00:00:08.000\n" "subtitle C\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 3u); EXPECT_EQ(samples_[0]->start_time(), 1000u); EXPECT_EQ(samples_[0]->duration(), 4200u); ExpectPlainCueWithBody(samples_[0]->body(), "subtitle A"); EXPECT_EQ(samples_[1]->start_time(), 2321u); EXPECT_EQ(samples_[1]->duration(), 4679u); ExpectPlainCueWithBody(samples_[1]->body(), "subtitle B"); EXPECT_EQ(samples_[2]->start_time(), 5800u); EXPECT_EQ(samples_[2]->duration(), 2200u); ExpectPlainCueWithBody(samples_[2]->body(), "subtitle C"); } // Verify that a typical case with mulitple cues work even when comments are // present. TEST_F(WebVttParserTest, ParseWithComments) { const uint8_t text[] = "WEBVTT\n" "\n" "NOTE This is a one line comment\n" "\n" "00:00:01.000 --> 00:00:05.200\n" "subtitle A\n" "\n" "NOTE\n" "This is a multi-line comment\n" "\n" "00:00:02.321 --> 00:00:07.000\n" "subtitle B\n" "\n" "NOTE This is a single line comment that\n" "spans two lines\n" "\n" "NOTE\tThis is a comment that using a tab\n" "\n" "00:00:05.800 --> 00:00:08.000\n" "subtitle C\n"; ASSERT_NO_FATAL_FAILURE(SetUpAndInitialize()); ASSERT_TRUE(parser_->Parse(text, sizeof(text) - 1)); ASSERT_TRUE(parser_->Flush()); ASSERT_EQ(streams_.size(), 1u); ASSERT_EQ(samples_.size(), 3u); ExpectPlainCueWithBody(samples_[0]->body(), "subtitle A"); ExpectPlainCueWithBody(samples_[1]->body(), "subtitle B"); ExpectPlainCueWithBody(samples_[2]->body(), "subtitle C"); } } // namespace media } // namespace shaka