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Updated the ogg2dtsc converter, now updates valid data without header.

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Erik Zandvliet 2013-06-25 16:04:33 +02:00 committed by Thulinma
parent 4364199f50
commit d72b1ebbbf
1 changed files with 39 additions and 82 deletions
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109
src/converters/ogg2dtsc.cpp
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@ -3,7 +3,6 @@
#include <fstream> #include <fstream>
#include <string> #include <string>
#include <sstream> #include <sstream>
//#include <string.h>
#include <map> #include <map>
#include <mist/dtsc.h> #include <mist/dtsc.h>
#include <mist/ogg.h> #include <mist/ogg.h>
@ -14,17 +13,15 @@
namespace Converters{ namespace Converters{
enum codecType {THEORA, VORBIS}; enum codecType {THEORA, VORBIS};
struct oggTrack{ class oggTrack{
//long unsigned int serialNumber; //serial number in read OGG file public:
long unsigned int lastSequenceNumber;//error checking for lost pages in OGG oggTrack() : lastTime() { }
codecType codec; codecType codec;
std::string name;
long long unsigned int dtscID; long long unsigned int dtscID;
long long signed int fpks; //frames per kilo second long long unsigned int lastTime;
char KFGShift; //Codec specific elements
int width; theora::header idHeader;
int height;
int bps;
DTSC::datatype type; //type of stream in DTSC
}; };
int OGG2DTSC(){ int OGG2DTSC(){
@ -44,123 +41,85 @@ namespace Converters{
for (unsigned int i = 0; (i < 1024) && (std::cin.good()); i++){//buffering for (unsigned int i = 0; (i < 1024) && (std::cin.good()); i++){//buffering
oggBuffer += std::cin.get(); oggBuffer += std::cin.get();
} }
//while OGG::page check functie{ read
while (oggPage.read(oggBuffer)){//reading ogg to ogg::page while (oggPage.read(oggBuffer)){//reading ogg to ogg::page
//on succes, we handle one page //on succes, we handle one page
long unsigned int sNum = oggPage.getBitstreamSerialNumber(); long unsigned int sNum = oggPage.getBitstreamSerialNumber();
if (oggPage.typeBOS()){//defines a new track if (oggPage.typeBOS()){//defines a new track
std::cerr << "Begin "<< sNum << std::endl; std::cerr << "Begin "<< sNum << std::endl;
trackData[sNum].lastSequenceNumber = oggPage.getPageSequenceNumber();
trackData[sNum].dtscID = lastTrackID++;
if (memcmp(oggPage.getFullPayload()+1, "theora", 6) == 0){ if (memcmp(oggPage.getFullPayload()+1, "theora", 6) == 0){
trackData[sNum].type = DTSC::VIDEO;
trackData[sNum].codec = THEORA; trackData[sNum].codec = THEORA;
std::cerr << "Snr " << sNum << "=theora" << std::endl; std::cerr << "Snr " << sNum << "=theora" << std::endl;
}else if(memcmp(oggPage.getFullPayload()+1, "vorbis", 6) == 0){ }else if(memcmp(oggPage.getFullPayload()+1, "vorbis", 6) == 0){
std::cerr << "Snr " << sNum << "=vorbis" << std::endl; std::cerr << "Snr " << sNum << "=vorbis" << std::endl;
trackData[sNum].codec = VORBIS; trackData[sNum].codec = VORBIS;
trackData[sNum].type = DTSC::AUDIO;
}else{ }else{
std::cerr << "Unknown Codec!" << std::endl; std::cerr << "Unknown Codec, skipping" << std::endl;
continue;
} }
std::stringstream tID;
tID << "track" << trackData[sNum].dtscID;
trackData[sNum].name = tID.str();
trackData[sNum].dtscID = lastTrackID++;
} }
//if Serial number is available in mapping //if Serial number is available in mapping
if(trackData.find(sNum)!=trackData.end()){ if(trackData.find(sNum)!=trackData.end()){
//switch on codec //switch on codec
//oggTrack curTrack = trackData[oggPage.getBitstreamSerialNumber()];
switch(trackData[sNum].codec){ switch(trackData[sNum].codec){
case THEORA:{ case THEORA:{
//std::cerr << "Theora" << std::endl; int offset = 0;
char* curSeg;//current segment
curSeg = oggPage.getFullPayload();//setting pointer to first segment
std::deque<unsigned int> segTable;//
//oggPage.getSegmentTableDeque().swap(segTable);
segTable = oggPage.getSegmentTableDeque();
unsigned int curPlace = 0;
unsigned int curLength;
theora::header tHead; theora::header tHead;
while (!segTable.empty()) { fprintf(stderr, "Parsing %d elements\n", oggPage.getSegmentTableDeque().size());
curLength = segTable.front(); for (std::deque<unsigned int>::iterator it = oggPage.getSegmentTableDeque().begin(); it != oggPage.getSegmentTableDeque().end(); it++){
segTable.pop_front(); fprintf(stderr, "Parsing Snr %u: element of length %d\n", sNum, (*it));
if(tHead.read(oggPage.getFullPayload()+offset, (*it))){//if the current segment is a header part
//std::cerr << curLength << ", " << std::hex << curSeg << std::dec;
if(tHead.read(curSeg+curPlace, curLength)){//if the current segment is a header part
std::cerr << "Theora Header Segment " << tHead.getHeaderType() << std::endl; std::cerr << "Theora Header Segment " << tHead.getHeaderType() << std::endl;
//fillDTSC header //fillDTSC header
switch(tHead.getHeaderType()){ switch(tHead.getHeaderType()){
case 0:{ //identification header case 0:{ //identification header
std::stringstream tID; trackData[sNum].idHeader = tHead;
tID << "track" << trackData[sNum].dtscID; break;
trackData[sNum].fpks = ((long long int)tHead.getFRN() * 1000) / tHead.getFRD(); }
DTSCHeader["tracks"][tID.str()]["fpks"] = trackData[sNum].fpks;
DTSCHeader["identification"] = std::string(curSeg+curPlace, curLength);
DTSCHeader["tracks"][tID.str()]["height"] = (long long)tHead.getPICH();
DTSCHeader["tracks"][tID.str()]["width"] = (long long)tHead.getPICW();
trackData[sNum].KFGShift = tHead.getKFGShift();
//std::cerr << trackData[sNum].fpks << std::endl;
break;}
case 1: //comment header case 1: //comment header
break; break;
case 2:{ //setup header, also the point to start writing the header case 2:{ //setup header, also the point to start writing the header
std::stringstream tID;
tID << "track" << trackData[sNum].dtscID;
DTSCHeader["tracks"][tID.str()]["codec"] = "THEORA";
DTSCHeader["tracks"][tID.str()]["type"] = "video";
//DTSCHeader["tracks"][tID.str()]["fpks"] = (long long)trackData[sNum].fpks;
DTSCHeader["tracks"][tID.str()]["trackid"] = (long long)trackData[sNum].dtscID;
std::cout << DTSCHeader.toNetPacked(); std::cout << DTSCHeader.toNetPacked();
break;} break;
}
} }
}else{//if the current segment is a movie part }else{//if the current segment is a movie part
//std::cerr << "Theora Movie" << std::endl;
//output DTSC packet //output DTSC packet
DTSCOut.null();//clearing DTSC buffer DTSCOut.null();//clearing DTSC buffer
DTSCOut["trackid"] = (long long)trackData[sNum].dtscID; DTSCOut["trackid"] = (long long)trackData[sNum].dtscID;
long long unsigned int temp = oggPage.getGranulePosition(); long long unsigned int temp = oggPage.getGranulePosition();
//std::cerr << std::hex << temp << std::dec << " " << (temp >> trackData[sNum].KFGShift) << " " << (temp & (trackData[sNum].KFGShift * 2 -1)); DTSCOut["time"] = (long long)trackData[sNum].lastTime ++;
//std::cerr << " " << (unsigned int)trackData[sNum].KFGShift << std::endl; DTSCOut["data"] = std::string(oggPage.getFullPayload()+offset, (*it)); //segment content put in JSON
DTSCOut["time"] = (long long)(((temp >> trackData[sNum].KFGShift) + (temp & (trackData[sNum].KFGShift * 2 -1))) * 1000000 / trackData[sNum].fpks); if (trackData[sNum].idHeader.parseGranuleLower(temp) == 0){ //granule mask equals zero when on keyframe
//std::cerr << DTSCOut["time"].asInt() << std::endl;
//timestamp calculated by frames * FPS. Amount of frames is calculated by:
// granule position using keyframe (bitshift) and distance from keyframe (mask)
DTSCOut["data"] = std::string(curSeg + curPlace, curLength); //segment content put in JSON
if ((temp & (trackData[sNum].KFGShift * 2 -1)) == 0){ //granule mask equals zero when on keyframe
DTSCOut["keyframe"] = 1; DTSCOut["keyframe"] = 1;
}else{ }else{
DTSCOut["interframe"] = 1; DTSCOut["interframe"] = 1;
} }
fprintf(stderr,"Outputting a packet of %d bytes\n", (*it));
std::cout << DTSCOut.toNetPacked(); std::cout << DTSCOut.toNetPacked();
} }
curPlace += curLength; offset += (*it);
}
if (trackData[sNum].lastTime != (trackData[sNum].idHeader.parseGranuleUpper(oggPage.getGranulePosition()) + trackData[sNum].idHeader.parseGranuleLower(oggPage.getGranulePosition()))){
} }
break; break;
} }
case VORBIS: case VORBIS:
//std::cerr << oggPage.getFullPayload() << " ";
//std::cerr << "Vorbis Page" << std::endl;
break; break;
default: default:
std::cerr << "Can not handle this codec" << std::endl; std::cerr << "Can not handle this codec" << std::endl;
break; break;
} }
/*
//ogg page 2 DTSC packet
//for every segment
DTSCOut.null();//clearing DTSC buffer
DTSCOut["trackid"] = 1; //video
DTSCOut["trackid"] = 2; //audio
DTSCOut["time"] = 0; //timestamp
DTSCOut["data"] = 0; //segment inhoud
DTSCOut["keyframe"] = "x"; //Aanmaken als eerste segment = keyframe
else DTSCOut["interframe"] = "x";
//std::cout << "inner" << std::endl;
*/
}else{ }else{
std::cerr <<"Error! " << oggPage.getBitstreamSerialNumber() << "unknown bitstream serial number" << std::endl; std::cerr <<"Error! Unknown bitstream number " << oggPage.getBitstreamSerialNumber() << std::endl;
} }
if (oggPage.typeEOS()){//ending page if (oggPage.typeEOS()){//ending page
std::cerr << oggPage.getBitstreamSerialNumber() << " ending" << std::endl; std::cerr << oggPage.getBitstreamSerialNumber() << " ending" << std::endl;
trackData.erase(sNum);
//remove from trackdata //remove from trackdata
} }
} }
@ -170,7 +129,5 @@ namespace Converters{
} }
int main(int argc, char ** argv){ int main(int argc, char ** argv){
//Util::Config conf = Util::Config(argv[0], PACKAGE_VERSION);
//conf.parseArgs(argc, argv);
return Converters::OGG2DTSC(); return Converters::OGG2DTSC();
} }