// Copyright (c) 2012 The WebM project authors. All Rights Reserved. // // Use of this source code is governed by a BSD-style license // that can be found in the LICENSE file in the root of the source // tree. An additional intellectual property rights grant can be found // in the file PATENTS. All contributing project authors may // be found in the AUTHORS file in the root of the source tree. #include #include #include #include #include #include "./mkvparser.hpp" #include "./mkvreader.hpp" #include "./webvttparser.h" using std::string; namespace vttdemux { typedef long long mkvtime_t; // NOLINT typedef long long mkvpos_t; // NOLINT typedef std::auto_ptr segment_ptr_t; // WebVTT metadata tracks have a type (encoded in the CodecID for the track). // We use |type| to synthesize a filename for the out-of-band WebVTT |file|. struct MetadataInfo { enum Type { kSubtitles, kCaptions, kDescriptions, kMetadata, kChapters } type; FILE* file; }; // We use a map, indexed by track number, to collect information about // each track in the input file. typedef std::map metadata_map_t; // NOLINT // The distinguished key value we use to store the chapters // information in the metadata map. enum { kChaptersKey = 0 }; // The data from the original WebVTT Cue is stored as a WebM block. // The FrameParser is used to parse the lines of text out from the // block, in order to reconstruct the original WebVTT Cue. class FrameParser : public libwebvtt::LineReader { public: // Bind the FrameParser instance to a WebM block. explicit FrameParser(const mkvparser::BlockGroup* block_group); virtual ~FrameParser(); // The Webm block (group) to which this instance is bound. We // treat the payload of the block as a stream of characters. const mkvparser::BlockGroup* const block_group_; protected: // Read the next character from the character stream (the payload // of the WebM block). We increment the stream pointer |pos_| as // each character from the stream is consumed. virtual int GetChar(char* c); // End-of-line handling requires that we put a character back into // the stream. Here we need only decrement the stream pointer |pos_| // to unconsume the character. virtual void UngetChar(char c); // The current position in the character stream (the payload of the block). mkvpos_t pos_; // The position of the end of the character stream. When the current // position |pos_| equals the end position |pos_end_|, the entire // stream (block payload) has been consumed and end-of-stream is indicated. mkvpos_t pos_end_; private: // Disable copy ctor and copy assign FrameParser(const FrameParser&); FrameParser& operator=(const FrameParser&); }; // The data from the original WebVTT Cue is stored as an MKV Chapters // Atom element (the cue payload is stored as a Display sub-element). // The ChapterAtomParser is used to parse the lines of text out from // the String sub-element of the Display element (though it would be // admittedly odd if there were more than one line). class ChapterAtomParser : public libwebvtt::LineReader { public: explicit ChapterAtomParser(const mkvparser::Chapters::Display* display); virtual ~ChapterAtomParser(); const mkvparser::Chapters::Display* const display_; protected: // Read the next character from the character stream (the title // member of the atom's display). We increment the stream pointer // |str_| as each character from the stream is consumed. virtual int GetChar(char* c); // End-of-line handling requires that we put a character back into // the stream. Here we need only decrement the stream pointer |str_| // to unconsume the character. virtual void UngetChar(char c); // The current position in the character stream (the title of the // atom's display). const char* str_; // The position of the end of the character stream. When the current // position |str_| equals the end position |str_end_|, the entire // stream (title of the display) has been consumed and end-of-stream // is indicated. const char* str_end_; private: ChapterAtomParser(const ChapterAtomParser&); ChapterAtomParser& operator=(const ChapterAtomParser&); }; // Parse the EBML header of the WebM input file, to determine whether we // actually have a WebM file. Returns false if this is not a WebM file. bool ParseHeader(mkvparser::IMkvReader* reader, mkvpos_t* pos); // Parse the Segment of the input file and load all of its clusters. // Returns false if there was an error parsing the file. bool ParseSegment( mkvparser::IMkvReader* reader, mkvpos_t pos, segment_ptr_t* segment); // If |segment| has a Chapters element (in which case, there will be a // corresponding entry in |metadata_map|), convert the MKV chapters to // WebVTT chapter cues and write them to the output file. Returns // false on error. bool WriteChaptersFile( const metadata_map_t& metadata_map, const mkvparser::Segment* segment); // Convert an MKV Chapters Atom to a WebVTT cue and write it to the // output |file|. Returns false on error. bool WriteChaptersCue( FILE* file, const mkvparser::Chapters* chapters, const mkvparser::Chapters::Atom* atom, const mkvparser::Chapters::Display* display); // Write the Cue Identifier line of the WebVTT cue, if it's present. // Returns false on error. bool WriteChaptersCueIdentifier( FILE* file, const mkvparser::Chapters::Atom* atom); // Use the timecodes from the chapters |atom| to write just the // timings line of the WebVTT cue. Returns false on error. bool WriteChaptersCueTimings( FILE* file, const mkvparser::Chapters* chapters, const mkvparser::Chapters::Atom* atom); // Parse the String sub-element of the |display| and write the payload // of the WebVTT cue. Returns false on error. bool WriteChaptersCuePayload( FILE* file, const mkvparser::Chapters::Display* display); // Iterate over the tracks of the input file (and any chapters // element) and cache information about each metadata track. void BuildMap(const mkvparser::Segment* segment, metadata_map_t* metadata_map); // For each track listed in the cache, synthesize its output filename // and open a file handle that designates the out-of-band file. // Returns false if we were unable to open an output file for a track. bool OpenFiles(metadata_map_t* metadata_map, const char* filename); // Close the file handle for each track in the cache. void CloseFiles(metadata_map_t* metadata_map); // Iterate over the clusters of the input file, and write a WebVTT cue // for each metadata block. Returns false if processing of a cluster // failed. bool WriteFiles(const metadata_map_t& m, mkvparser::Segment* s); // Write the WebVTT header for each track in the cache. We do this // immediately before writing the actual WebVTT cues. Returns false // if the write failed. bool InitializeFiles(const metadata_map_t& metadata_map); // Iterate over the blocks of the |cluster|, writing a WebVTT cue to // its associated output file for each block of metadata. Returns // false if processing a block failed, or there was a parse error. bool ProcessCluster( const metadata_map_t& metadata_map, const mkvparser::Cluster* cluster); // Look up this track number in the cache, and if found (meaning this // is a metadata track), write a WebVTT cue to the associated output // file. Returns false if writing the WebVTT cue failed. bool ProcessBlockEntry( const metadata_map_t& metadata_map, const mkvparser::BlockEntry* block_entry); // Parse the lines of text from the |block_group| to reconstruct the // original WebVTT cue, and write it to the associated output |file|. // Returns false if there was an error writing to the output file. bool WriteCue(FILE* file, const mkvparser::BlockGroup* block_group); // Consume a line of text from the character stream, and if the line // is not empty write the cue identifier to the associated output // file. Returns false if there was an error writing to the file. bool WriteCueIdentifier(FILE* f, FrameParser* parser); // Consume a line of text from the character stream (which holds any // cue settings) and write the cue timings line for this cue to the // associated output file. Returns false if there was an error // writing to the file. bool WriteCueTimings( FILE* f, FrameParser* parser); // Write the timestamp (representating either the start time or stop // time of the cue) to the output file. Returns false if there was an // error writing to the file. bool WriteCueTime( FILE* f, mkvtime_t time_ns); // Consume the remaining lines of text from the character stream // (these lines are the actual payload of the WebVTT cue), and write // them to the associated output file. Returns false if there was an // error writing to the file. bool WriteCuePayload( FILE* f, FrameParser* parser); } // namespace vttdemux int main(int argc, const char* argv[]) { if (argc != 2) { printf("usage: vttdemux \n"); return EXIT_SUCCESS; } const char* const filename = argv[1]; mkvparser::MkvReader reader; int e = reader.Open(filename); if (e) { // error printf("unable to open file\n"); return EXIT_FAILURE; } vttdemux::mkvpos_t pos; if (!vttdemux::ParseHeader(&reader, &pos)) return EXIT_FAILURE; vttdemux::segment_ptr_t segment_ptr; if (!vttdemux::ParseSegment(&reader, pos, &segment_ptr)) return EXIT_FAILURE; vttdemux::metadata_map_t metadata_map; BuildMap(segment_ptr.get(), &metadata_map); if (metadata_map.empty()) { printf("no WebVTT metadata found\n"); return EXIT_FAILURE; } if (!OpenFiles(&metadata_map, filename)) { CloseFiles(&metadata_map); // nothing to flush, so not strictly necessary return EXIT_FAILURE; } if (!WriteFiles(metadata_map, segment_ptr.get())) { CloseFiles(&metadata_map); // might as well flush what we do have return EXIT_FAILURE; } CloseFiles(&metadata_map); return EXIT_SUCCESS; } namespace vttdemux { FrameParser::FrameParser(const mkvparser::BlockGroup* block_group) : block_group_(block_group) { const mkvparser::Block* const block = block_group->GetBlock(); const mkvparser::Block::Frame& f = block->GetFrame(0); // The beginning and end of the character stream corresponds to the // position of this block's frame within the WebM input file. pos_ = f.pos; pos_end_ = f.pos + f.len; } FrameParser::~FrameParser() { } int FrameParser::GetChar(char* c) { if (pos_ >= pos_end_) // end-of-stream return 1; // per the semantics of libwebvtt::Reader::GetChar const mkvparser::Cluster* const cluster = block_group_->GetCluster(); const mkvparser::Segment* const segment = cluster->m_pSegment; mkvparser::IMkvReader* const reader = segment->m_pReader; unsigned char* const buf = reinterpret_cast(c); const int result = reader->Read(pos_, 1, buf); if (result < 0) // error return -1; ++pos_; // consume this character in the stream return 0; } void FrameParser::UngetChar(char /* c */ ) { // All we need to do here is decrement the position in the stream. // The next time GetChar is called the same character will be // re-read from the input file. --pos_; } ChapterAtomParser::ChapterAtomParser( const mkvparser::Chapters::Display* display) : display_(display) { str_ = display->GetString(); const size_t len = strlen(str_); str_end_ = str_ + len; } ChapterAtomParser::~ChapterAtomParser() { } int ChapterAtomParser::GetChar(char* c) { if (str_ >= str_end_) // end-of-stream return 1; // per the semantics of libwebvtt::Reader::GetChar *c = *str_++; // consume this character in the stream return 0; } void ChapterAtomParser::UngetChar(char /* c */ ) { // All we need to do here is decrement the position in the stream. // The next time GetChar is called the same character will be // re-read from the input file. --str_; } } // namespace vttdemux bool vttdemux::ParseHeader( mkvparser::IMkvReader* reader, mkvpos_t* pos) { mkvparser::EBMLHeader h; const mkvpos_t status = h.Parse(reader, *pos); if (status) { printf("error parsing EBML header\n"); return false; } if (strcmp(h.m_docType, "webm") != 0) { printf("bad doctype\n"); return false; } return true; // success } bool vttdemux::ParseSegment( mkvparser::IMkvReader* reader, mkvpos_t pos, segment_ptr_t* segment_ptr) { // We first create the segment object. mkvparser::Segment* p; const mkvpos_t create = mkvparser::Segment::CreateInstance(reader, pos, p); if (create) { printf("error parsing segment element\n"); return false; } segment_ptr->reset(p); // Now parse all of the segment's sub-elements, in toto. const long status = p->Load(); // NOLINT if (status < 0) { printf("error loading segment\n"); return false; } return true; } void vttdemux::BuildMap( const mkvparser::Segment* segment, metadata_map_t* map_ptr) { metadata_map_t& m = *map_ptr; m.clear(); if (segment->GetChapters()) { MetadataInfo info; info.file = NULL; info.type = MetadataInfo::kChapters; m[kChaptersKey] = info; } const mkvparser::Tracks* const tt = segment->GetTracks(); if (tt == NULL) return; const long tc = tt->GetTracksCount(); // NOLINT if (tc <= 0) return; // Iterate over the tracks in the intput file. We determine whether // a track holds metadata by inspecting its CodecID. for (long idx = 0; idx < tc; ++idx) { // NOLINT const mkvparser::Track* const t = tt->GetTrackByIndex(idx); if (t == NULL) // weird continue; const long tn = t->GetNumber(); // NOLINT if (tn <= 0) // weird continue; const char* const codec_id = t->GetCodecId(); if (codec_id == NULL) // weird continue; MetadataInfo info; info.file = NULL; if (strcmp(codec_id, "D_WEBVTT/SUBTITLES") == 0) { info.type = MetadataInfo::kSubtitles; } else if (strcmp(codec_id, "D_WEBVTT/CAPTIONS") == 0) { info.type = MetadataInfo::kCaptions; } else if (strcmp(codec_id, "D_WEBVTT/DESCRIPTIONS") == 0) { info.type = MetadataInfo::kDescriptions; } else if (strcmp(codec_id, "D_WEBVTT/METADATA") == 0) { info.type = MetadataInfo::kMetadata; } else { continue; } m[tn] = info; // create an entry in the cache for this track } } bool vttdemux::OpenFiles(metadata_map_t* metadata_map, const char* filename) { if (metadata_map == NULL || metadata_map->empty()) return false; if (filename == NULL) return false; // Find the position of the filename extension. We synthesize the // output filename from the directory path and basename of the input // filename. const char* const ext = strrchr(filename, '.'); if (ext == NULL) // TODO(matthewjheaney): liberalize? return false; // Remember whether a track of this type has already been seen (the // map key) by keeping a count (the map item). We quality the // output filename with the track number if there is more than one // track having a given type. std::map exists; typedef metadata_map_t::iterator iter_t; metadata_map_t& m = *metadata_map; const iter_t ii = m.begin(); const iter_t j = m.end(); // Make a first pass over the cache to determine whether there is // more than one track corresponding to a given metadata type. iter_t i = ii; while (i != j) { const metadata_map_t::value_type& v = *i++; const MetadataInfo& info = v.second; const MetadataInfo::Type type = info.type; ++exists[type]; } // Make a second pass over the cache, synthesizing the filename of // each output file (from the input file basename, the input track // metadata type, and its track number if necessary), and then // opening a WebVTT output file having that filename. i = ii; while (i != j) { metadata_map_t::value_type& v = *i++; MetadataInfo& info = v.second; const MetadataInfo::Type type = info.type; // Start with the basename of the input file. string name(filename, ext); // Next append the metadata kind. switch (type) { case MetadataInfo::kSubtitles: name += "_SUBTITLES"; break; case MetadataInfo::kCaptions: name += "_CAPTIONS"; break; case MetadataInfo::kDescriptions: name += "_DESCRIPTIONS"; break; case MetadataInfo::kMetadata: name += "_METADATA"; break; case MetadataInfo::kChapters: name += "_CHAPTERS"; break; default: return false; } // If there is more than one metadata track having a given type // (the WebVTT-in-WebM spec doesn't preclude this), then qualify // the output filename with the input track number. if (exists[type] > 1) { enum { kLen = 33 }; char str[kLen]; // max 126 tracks, so only 4 chars really needed snprintf(str, kLen, "%ld", v.first); // track number name += str; } // Finally append the output filename extension. name += ".vtt"; // We have synthesized the full output filename, so attempt to // open the WebVTT output file. info.file = fopen(name.c_str(), "wb"); if (info.file == NULL) { printf("unable to open output file %s\n", name.c_str()); return false; } } return true; } void vttdemux::CloseFiles(metadata_map_t* metadata_map) { if (metadata_map == NULL) return; metadata_map_t& m = *metadata_map; typedef metadata_map_t::iterator iter_t; iter_t i = m.begin(); const iter_t j = m.end(); // Gracefully close each output file, to ensure all output gets // propertly flushed. while (i != j) { metadata_map_t::value_type& v = *i++; MetadataInfo& info = v.second; fclose(info.file); info.file = NULL; } } bool vttdemux::WriteFiles(const metadata_map_t& m, mkvparser::Segment* s) { // First write the WebVTT header. InitializeFiles(m); if (!WriteChaptersFile(m, s)) return false; // Now iterate over the clusters, writing the WebVTT cue as we parse // each metadata block. const mkvparser::Cluster* cluster = s->GetFirst(); while (cluster != NULL && !cluster->EOS()) { if (!ProcessCluster(m, cluster)) return false; cluster = s->GetNext(cluster); } return true; } bool vttdemux::InitializeFiles(const metadata_map_t& m) { // Write the WebVTT header for each output file in the cache. typedef metadata_map_t::const_iterator iter_t; iter_t i = m.begin(); const iter_t j = m.end(); while (i != j) { const metadata_map_t::value_type& v = *i++; const MetadataInfo& info = v.second; FILE* const f = info.file; if (fputs("WEBVTT\n", f) < 0) { printf("unable to initialize output file\n"); return false; } } return true; } bool vttdemux::WriteChaptersFile( const metadata_map_t& m, const mkvparser::Segment* s) { const metadata_map_t::const_iterator info_iter = m.find(kChaptersKey); if (info_iter == m.end()) // no chapters, so nothing to do return true; const mkvparser::Chapters* const chapters = s->GetChapters(); if (chapters == NULL) // weird return true; const MetadataInfo& info = info_iter->second; FILE* const file = info.file; const int edition_count = chapters->GetEditionCount(); if (edition_count <= 0) // weird return true; // nothing to do if (edition_count > 1) { // TODO(matthewjheaney): figure what to do here printf("more than one chapter edition detected\n"); return false; } const mkvparser::Chapters::Edition* const edition = chapters->GetEdition(0); const int atom_count = edition->GetAtomCount(); for (int idx = 0; idx < atom_count; ++idx) { const mkvparser::Chapters::Atom* const atom = edition->GetAtom(idx); const int display_count = atom->GetDisplayCount(); if (display_count <= 0) continue; if (display_count > 1) { // TODO(matthewjheaney): handle case of multiple languages printf("more than 1 display in atom detected\n"); return false; } const mkvparser::Chapters::Display* const display = atom->GetDisplay(0); if (const char* language = display->GetLanguage()) { if (strcmp(language, "eng") != 0) { // TODO(matthewjheaney): handle case of multiple languages. // We must create a separate webvtt file for each language. // This isn't a simple problem (which is why we defer it for // now), because there's nothing in the header that tells us // what languages we have as cues. We must parse the displays // of each atom to determine that. // One solution is to make two passes over the input data. // First parse the displays, creating an in-memory cache of // all the chapter cues, sorted according to their language. // After we have read all of the chapter atoms from the input // file, we can then write separate output files for each // language. printf("only English-language chapter cues are supported\n"); return false; } } if (!WriteChaptersCue(file, chapters, atom, display)) return false; } return true; } bool vttdemux::WriteChaptersCue( FILE* f, const mkvparser::Chapters* chapters, const mkvparser::Chapters::Atom* atom, const mkvparser::Chapters::Display* display) { // We start a new cue by writing a cue separator (an empty line) // into the stream. if (fputc('\n', f) < 0) return false; // A WebVTT Cue comprises 3 things: a cue identifier, followed by // the cue timings, followed by the payload of the cue. We write // each part of the cue in sequence. if (!WriteChaptersCueIdentifier(f, atom)) return false; if (!WriteChaptersCueTimings(f, chapters, atom)) return false; if (!WriteChaptersCuePayload(f, display)) return false; return true; } bool vttdemux::WriteChaptersCueIdentifier( FILE* f, const mkvparser::Chapters::Atom* atom) { const char* const identifier = atom->GetStringUID(); if (identifier == NULL) return true; // nothing else to do if (fprintf(f, "%s\n", identifier) < 0) return false; return true; } bool vttdemux::WriteChaptersCueTimings( FILE* f, const mkvparser::Chapters* chapters, const mkvparser::Chapters::Atom* atom) { const mkvtime_t start_ns = atom->GetStartTime(chapters); if (start_ns < 0) return false; const mkvtime_t stop_ns = atom->GetStopTime(chapters); if (stop_ns < 0) return false; if (!WriteCueTime(f, start_ns)) return false; if (fputs(" --> ", f) < 0) return false; if (!WriteCueTime(f, stop_ns)) return false; if (fputc('\n', f) < 0) return false; return true; } bool vttdemux::WriteChaptersCuePayload( FILE* f, const mkvparser::Chapters::Display* display) { // Bind a Chapter parser object to the display, which allows us to // extract each line of text from the title-part of the display. ChapterAtomParser parser(display); int count = 0; // count of lines of payload text written to output file for (string line;;) { const int e = parser.GetLine(&line); if (e < 0) // error (only -- we allow EOS here) return false; if (line.empty()) // TODO(matthewjheaney): retain this check? break; if (fprintf(f, "%s\n", line.c_str()) < 0) return false; ++count; } if (count <= 0) // WebVTT cue requires non-empty payload return false; return true; } bool vttdemux::ProcessCluster( const metadata_map_t& m, const mkvparser::Cluster* c) { // Visit the blocks in this cluster, writing a WebVTT cue for each // metadata block. const mkvparser::BlockEntry* block_entry; long result = c->GetFirst(block_entry); // NOLINT if (result < 0) { // error printf("bad cluster (unable to get first block)\n"); return false; } while (block_entry != NULL && !block_entry->EOS()) { if (!ProcessBlockEntry(m, block_entry)) return false; result = c->GetNext(block_entry, block_entry); if (result < 0) { // error printf("bad cluster (unable to get next block)\n"); return false; } } return true; } bool vttdemux::ProcessBlockEntry( const metadata_map_t& m, const mkvparser::BlockEntry* block_entry) { // If the track number for this block is in the cache, then we have // a metadata block, so write the WebVTT cue to the output file. const mkvparser::Block* const block = block_entry->GetBlock(); const long long tn = block->GetTrackNumber(); // NOLINT typedef metadata_map_t::const_iterator iter_t; const iter_t i = m.find(tn); if (i == m.end()) // not a metadata track return true; // nothing else to do if (block_entry->GetKind() != mkvparser::BlockEntry::kBlockGroup) return false; // weird typedef mkvparser::BlockGroup BG; const BG* const block_group = static_cast(block_entry); const MetadataInfo& info = i->second; FILE* const f = info.file; return WriteCue(f, block_group); } bool vttdemux::WriteCue( FILE* f, const mkvparser::BlockGroup* block_group) { // Bind a FrameParser object to the block, which allows us to // extract each line of text from the payload of the block. FrameParser parser(block_group); // We start a new cue by writing a cue separator (an empty line) // into the stream. if (fputc('\n', f) < 0) return false; // A WebVTT Cue comprises 3 things: a cue identifier, followed by // the cue timings, followed by the payload of the cue. We write // each part of the cue in sequence. if (!WriteCueIdentifier(f, &parser)) return false; if (!WriteCueTimings(f, &parser)) return false; if (!WriteCuePayload(f, &parser)) return false; return true; } bool vttdemux::WriteCueIdentifier( FILE* f, FrameParser* parser) { string line; int e = parser->GetLine(&line); if (e) // error or EOS return false; // If the cue identifier line is empty, this means that the original // WebVTT cue did not have a cue identifier, so we don't bother // writing an extra line terminator to the output file (though doing // so would be harmless). if (!line.empty()) { if (fputs(line.c_str(), f) < 0) return false; if (fputc('\n', f) < 0) return false; } return true; } bool vttdemux::WriteCueTimings( FILE* f, FrameParser* parser) { const mkvparser::BlockGroup* const block_group = parser->block_group_; const mkvparser::Cluster* const cluster = block_group->GetCluster(); const mkvparser::Block* const block = block_group->GetBlock(); // A WebVTT Cue "timings" line comprises two parts: the start and // stop time for this cue, followed by the (optional) cue settings, // such as orientation of the rendered text or its size. Only the // settings part of the cue timings line is stored in the WebM // block. We reconstruct the start and stop times of the WebVTT cue // from the timestamp and duration of the WebM block. const mkvtime_t start_ns = block->GetTime(cluster); if (!WriteCueTime(f, start_ns)) return false; if (fputs(" --> ", f) < 0) return false; const mkvtime_t duration_timecode = block_group->GetDurationTimeCode(); if (duration_timecode < 0) return false; const mkvparser::Segment* const segment = cluster->m_pSegment; const mkvparser::SegmentInfo* const info = segment->GetInfo(); if (info == NULL) return false; const mkvtime_t timecode_scale = info->GetTimeCodeScale(); if (timecode_scale <= 0) return false; const mkvtime_t duration_ns = duration_timecode * timecode_scale; const mkvtime_t stop_ns = start_ns + duration_ns; if (!WriteCueTime(f, stop_ns)) return false; string line; int e = parser->GetLine(&line); if (e) // error or EOS return false; if (!line.empty()) { if (fputc(' ', f) < 0) return false; if (fputs(line.c_str(), f) < 0) return false; } if (fputc('\n', f) < 0) return false; return true; } bool vttdemux::WriteCueTime( FILE* f, mkvtime_t time_ns) { mkvtime_t ms = time_ns / 1000000; // WebVTT time has millisecond resolution mkvtime_t sec = ms / 1000; ms -= sec * 1000; mkvtime_t min = sec / 60; sec -= 60 * min; mkvtime_t hr = min / 60; min -= 60 * hr; if (hr > 0) { if (fprintf(f, "%02lld:", hr) < 0) return false; } if (fprintf(f, "%02lld:%02lld.%03lld", min, sec, ms) < 0) return false; return true; } bool vttdemux::WriteCuePayload( FILE* f, FrameParser* parser) { int count = 0; // count of lines of payload text written to output file for (string line;;) { const int e = parser->GetLine(&line); if (e < 0) // error (only -- we allow EOS here) return false; if (line.empty()) // TODO(matthewjheaney): retain this check? break; if (fprintf(f, "%s\n", line.c_str()) < 0) return false; ++count; } if (count <= 0) // WebVTT cue requires non-empty payload return false; return true; }