bool XmlWorldPartReader::ReadEdgeShape(
const DOMNode *shapeNode, b2EdgeShape *dest
) {
DOMXPathNSResolver *resolver = doc->createNSResolver(shapeNode);
if (resolver == nullptr) {
return nullptr;
}
DOMXPathResult *result;
YPT::XmlString str;
b2Vec2 vec1, vec2;
result = doc->evaluate(
YPT::XmlString("./vertex1"), shapeNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result == nullptr) {
return false;
}
if (result->getSnapshotLength() == 0) {
// 値が存在しない
result->release();
return false;
}
str = result->getNodeValue()->getTextContent();
result->release();
if (!YPT::ConvertStrToVec2(std::string(str), &vec1)) {
// 値が正しい形式で書かれていない
return false;
}
result = doc->evaluate(
YPT::XmlString("./vertex2"), shapeNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result == nullptr) {
return false;
}
if (result->getSnapshotLength() == 0) {
// 値が存在しない
result->release();
return false;
}
str = result->getNodeValue()->getTextContent();
result->release();
if (!YPT::ConvertStrToVec2(std::string(str), &vec2)) {
// 値が正しい形式で書かれていない
return false;
}
dest->m_vertex1 = vec1;
dest->m_vertex2 = vec2;
return true;
}
bool XmlWorldPartReader::ReadCircleShape(
const DOMNode *shapeNode, b2CircleShape *dest
) {
DOMXPathNSResolver *resolver = doc->createNSResolver(shapeNode);
if (resolver == nullptr) {
return nullptr;
}
DOMXPathResult *result;
YPT::XmlString str;
b2Vec2 center(0.0f, 0.0f);
float32 radius;
result = doc->evaluate(
YPT::XmlString("./center"), shapeNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
YPT::ConvertStrToVec2(std::string(str), ¢er);
}
result->release();
}
result = doc->evaluate(
YPT::XmlString("./radius"), shapeNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result == nullptr) {
return false;
}
if (result->getSnapshotLength() == 0) {
// 値が存在しない
result->release();
return false;
}
str = result->getNodeValue()->getTextContent();
if (!YPT::ConvertStrToFloat(std::string(str), &radius)) {
// 値が正しい形式で書かれていない
return false;
}
result->release();
dest->m_p = center;
dest->m_radius = radius;
return true;
}
bool XmlWorldReader::Read(const std::string &file) {
// ワールドを初期化
try {
initialize();
if (initFlag) {
initializeWorld();
}
} catch (...) {
return false;
}
// TODO: ファイルの有無を確認
// XMLファイルをパース
const XMLCh gLS[] = {chLatin_L, chLatin_S, chNull};
DOMImplementationLS *impl = DOMImplementationRegistry::getDOMImplementation(gLS);
DOMLSParser *parser = impl->createLSParser(
DOMImplementationLS::MODE_SYNCHRONOUS, NULL
);
DOMDocument *doc = parser->parseURI(file.c_str());
if (doc == nullptr) {
return false;
}
// rootノードを取得
DOMElement *worldElement = doc->getDocumentElement();
if (worldElement == nullptr) {
parser->release();
return false;
}
{
YPT::XmlString temp("world");
bool res = XMLString::equals(worldElement->getNodeName(), temp);
if (!res) {
parser->release();
return false;
}
}
// ロード用クラス作成
YPT::XmlWorldPartReader partReader(doc);
// XPathコンテキスト作成
DOMXPathNSResolver *resolver = doc->createNSResolver(worldElement);
if (resolver == nullptr) {
parser->release();
return false;
}
YPT::XmlString str, str2;
DOMXPathResult *result;
// --------------------------------------------------
// ワールド全体の設定
// --------------------------------------------------
// ワールド名
str = worldElement->getAttribute(YPT::XmlString("name"));
if (str != "") {
name = str;
}
// 重力ベクトル
result = doc->evaluate(
YPT::XmlString("./gravity"), worldElement, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
b2Vec2 temp;
if (!YPT::ConvertStrToVec2(str.ToChar(), &temp)) {
world.SetGravity(temp);
}
}
result->release();
}
// --------------------------------------------------
// shapes
// --------------------------------------------------
result = doc->evaluate(
YPT::XmlString("./shape"), worldElement, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
const XMLSize_t len = result->getSnapshotLength();
for (XMLSize_t i = 0; i < len; ++i) {
result->snapshotItem(i);
DOMNode *node = result->getNodeValue();
if (node == nullptr) {
continue;
}
DOMNamedNodeMap *nodeMap = node->getAttributes();
if (nodeMap == nullptr) {
continue;
}
DOMNode *typeNode = nodeMap->getNamedItem(YPT::XmlString("type"));
if (typeNode == nullptr) {
continue;
}
str = typeNode->getNodeValue();
b2Shape::Type type;
int index;
if (str == "circle") {
type = b2Shape::e_circle;
b2CircleShape temp;
if (partReader.ReadCircleShape(node, &temp)) {
circleShapes.push_back(temp);
index = circleShapes.size()-1;
} else {
// 読み込み失敗
continue;
}
} else if (str == "edge") {
type = b2Shape::e_edge;
b2EdgeShape temp;
if (partReader.ReadEdgeShape(node, &temp)) {
edgeShapes.push_back(temp);
index = edgeShapes.size()-1;
} else {
// 読み込み失敗
continue;
}
} else if (str == "polygon") {
type = b2Shape::e_polygon;
b2PolygonShape temp;
if (partReader.ReadPolygonShape(node, &temp)) {
polygonShapes.push_back(temp);
index = polygonShapes.size()-1;
} else {
// 読み込み失敗
continue;
}
} else if (str == "chain") {
type = b2Shape::e_chain;
b2ChainShape temp;
if (partReader.ReadChainShape(node, &temp)) {
chainShapes.push_back(temp);
index = chainShapes.size()-1;
} else {
// 読み込み失敗
continue;
}
} else {
// 未対応
continue;
}
// nameプロパティがあれば保存
DOMNode *name = nodeMap->getNamedItem(YPT::XmlString("name"));
if (name != nullptr) {
str = name->getNodeValue();
shapes.insert(ShapesMap::value_type(
std::string(str),
std::make_pair(type, index)
));
}
}
result->release();
}
// --------------------------------------------------
// fixtures
// --------------------------------------------------
result = doc->evaluate(
YPT::XmlString("./fixture"), worldElement, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
const XMLSize_t len = result->getSnapshotLength();
for (XMLSize_t i = 0; i < len; ++i) {
result->snapshotItem(i);
DOMNode *node = result->getNodeValue();
if (node == nullptr) {
continue;
}
DOMXPathResult *result2 = doc->evaluate(
YPT::XmlString("./shape"), node, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result2 == nullptr) {
continue;
}
DOMNode *shapeNode = result2->getNodeValue();
if (shapeNode == nullptr) {
continue;
}
str = shapeNode->getTextContent();
result2->release();
ShapesMap::iterator found = shapes.find(std::string(str));
if (found == shapes.end()) {
continue;
}
// fixture読み込み
b2FixtureDef fixtureDef;
b2Shape *shape = NULL;
int index = found->second.second;
switch (found->second.first) {
case b2Shape::e_circle:
shape = &circleShapes[index];
break;
case b2Shape::e_edge:
shape = &edgeShapes[index];
break;
case b2Shape::e_polygon:
shape = &polygonShapes[index];
break;
case b2Shape::e_chain:
shape = &chainShapes[index];
break;
default:
// 未対応
break;
}
if (shape == NULL) {
continue;
}
if (partReader.ReadFixture(node, shape, &fixtureDef)) {
// 読み込み成功
// nameプロパティがあれば保存する
DOMNamedNodeMap *nodeMap = node->getAttributes();
if (nodeMap == nullptr) {
continue;
}
DOMNode *nameNode = nodeMap->getNamedItem(YPT::XmlString("name"));
if (nameNode == nullptr) {
continue;
}
str = nameNode->getNodeValue();
fixtures.insert(FixturesMap::value_type(
std::string(str), fixtureDef
));
}
}
result->release();
}
// --------------------------------------------------
// bodies
// --------------------------------------------------
result = doc->evaluate(
YPT::XmlString("./body"), worldElement, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
const XMLSize_t len = result->getSnapshotLength();
for (XMLSize_t i = 0; i < len; ++i) {
result->snapshotItem(i);
DOMNode *node = result->getNodeValue();
if (node == nullptr) {
continue;
}
DOMXPathResult *result2 = doc->evaluate(
YPT::XmlString("./fixtures/fixture"), node, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result2 == nullptr) {
continue;
}
std::vector< b2FixtureDef *> fixtureDefs;
const XMLSize_t fixturesLen = result2->getSnapshotLength();
for (XMLSize_t j = 0; j < fixturesLen; ++j) {
result2->snapshotItem(j);
DOMNode *fixtureNode = result2->getNodeValue();
if (fixtureNode == nullptr) {
continue;
}
str = fixtureNode->getTextContent();
FixturesMap::iterator found = fixtures.find(
std::string(str)
);
if (found != fixtures.end()) {
fixtureDefs.push_back(&found->second);
}
}
result2->release();
b2Body *body = partReader.ReadBody(world, node, fixtureDefs);
if (body != nullptr) {
// 読み込み成功
// nameプロパティがあれば保存する
DOMNamedNodeMap *nodeMap = node->getAttributes();
if (nodeMap == nullptr) {
continue;
}
DOMNode *nameNode = nodeMap->getNamedItem(YPT::XmlString("name"));
if (nameNode == nullptr) {
continue;
}
str = nameNode->getNodeValue();
bodies.insert(BodiesMap::value_type(
std::string(str), body
));
}
}
result->release();
}
// --------------------------------------------------
// 読み込み完了
// --------------------------------------------------
resolver->release();
parser->release();
return true;
}
bool SignatureSetImporter::execute(PlugInArgList* pInArgList, PlugInArgList* OutArgList)
{
VERIFY(pInArgList != NULL);
Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
ProgressTracker progress(pProgress, "Loading spectral signature library", "spectral", "7B21EE8A-D2E1-4325-BB9F-F4E521BFD5ED");
SignatureSet* pSignatureSet = pInArgList->getPlugInArgValue<SignatureSet>(Importer::ImportElementArg());
VERIFY(pSignatureSet != NULL);
DataDescriptor* pDataDescriptor = pSignatureSet->getDataDescriptor();
VERIFY(pDataDescriptor != NULL);
FileDescriptor* pFileDescriptor = pDataDescriptor->getFileDescriptor();
VERIFY(pFileDescriptor != NULL);
const string& filename = pFileDescriptor->getFilename().getFullPathAndName();
progress.getCurrentStep()->addProperty("signature set", pSignatureSet->getName());
progress.getCurrentStep()->addProperty("dataset location", pFileDescriptor->getDatasetLocation());
// locate the spot in the tree for this dataset
try
{
string expr;
vector<string> parts = StringUtilities::split(pFileDescriptor->getDatasetLocation(), '/');
for (vector<string>::iterator part = parts.begin(); part != parts.end(); ++part)
{
if (!part->empty())
{
expr += "/signature_set[metadata/@name='Name' and metadata/@value='" + *part + "']";
}
}
expr += "/signature";
loadDoc(filename);
DOMXPathResult* pResult = mXml[filename]->query(expr, DOMXPathResult::SNAPSHOT_RESULT_TYPE);
VERIFY(pResult != NULL);
int nodeTotal = pResult->getSnapshotLength();
for (int nodeNum = 0; nodeNum < nodeTotal; ++nodeNum)
{
if (isAborted())
{
progress.report("Aborted file " + pFileDescriptor->getFilename().getFullPathAndName(), 0, WARNING, true);
progress.report("User aborted the operation.", 0, ABORT, true);
return false;
}
int percent = static_cast<int>(100.0 * nodeNum / nodeTotal);
progress.report("Importing signature library", percent, NORMAL);
if (!pResult->snapshotItem(nodeNum) || !pResult->isNode())
{
continue;
}
const DOMElement* pElmnt = static_cast<const DOMElement*>(pResult->getNodeValue());
string filename = A(pElmnt->getAttribute(X("filename")));
if (filename.empty() == false)
{
string path = pFileDescriptor->getFilename().getPath();
QString tempFilename = QString::fromStdString(filename);
if (tempFilename.startsWith("./") == true)
{
tempFilename.replace(0, 1, QString::fromStdString(path));
filename = tempFilename.toStdString();
}
else
{
QFileInfo fileInfo(tempFilename);
if (fileInfo.isRelative() == true)
{
filename = path + SLASH + filename;
}
}
}
// don't pass progress to importer - the individual signature imports are rapid and passing progress will
// cause isAborted() to not function properly.
ImporterResource importer("Auto Importer", filename, NULL);
if (importer->getPlugIn() == NULL)
{
progress.report("The \"Auto Importer\" is not available and is required to import signature sets.", 0, ERRORS, true);
return false;
}
if (importer->execute())
{
vector<DataElement*> elements = importer->getImportedElements();
vector<Signature*> sigs(elements.size(), NULL);
for (vector<DataElement*>::iterator element = elements.begin(); element != elements.end(); ++element)
{
Signature* pSig = dynamic_cast<Signature*>(*element);
if (pSig != NULL)
{
pSignatureSet->insertSignature(pSig);
// reparent the signature
Service<ModelServices>()->setElementParent(pSig, pSignatureSet);
}
}
}
else
{
progress.report("Unable to import signature " + filename, percent, WARNING, true);
}
}
}
catch(DOMException &exc)
{
progress.report(A(exc.getMessage()), 0, ERRORS, true);
return false;
}
SignatureSet* pParent = dynamic_cast<SignatureSet*>(pSignatureSet->getParent());
if (pParent != NULL && pParent->getFilename() == pSignatureSet->getFilename())
{
pParent->insertSignature(pSignatureSet);
}
progress.report("Spectral signature library loaded", 100, NORMAL);
progress.upALevel();
return true;
}
bool XmlWorldPartReader::ReadChainShape(
const DOMNode *shapeNode, b2ChainShape *dest
) {
DOMXPathNSResolver *resolver = doc->createNSResolver(shapeNode);
if (resolver == nullptr) {
return nullptr;
}
DOMXPathResult *result;
YPT::XmlString str;
int vertexCount;
b2Vec2 vertices[b2_maxPolygonVertices];
result = doc->evaluate(
YPT::XmlString("./vertexCount"), shapeNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result == nullptr) {
return false;
}
if (result->getSnapshotLength() == 0) {
// 値が存在しない
result->release();
return false;
}
str = result->getNodeValue()->getTextContent();
result->release();
if (!YPT::ConvertStrToInt(std::string(str), &vertexCount)
|| vertexCount <= 0 || vertexCount > b2_maxPolygonVertices
) {
// 値が正しい形式で書かれていない
return false;
}
for (int i = 0; i < vertexCount; ++i) {
std::string iStr = YPT::ConvertIntToStr(i+1);
result = doc->evaluate(
YPT::XmlString((
"./vertices/vertex" + iStr + "|./vertices/v" + iStr
).c_str()), shapeNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result == nullptr) {
return false;
}
const XMLSize_t len = result->getSnapshotLength();
if (len == 0) {
// 値が存在しない
result->release();
return false;
}
str = result->getNodeValue()->getTextContent();
result->release();
if (!YPT::ConvertStrToVec2(std::string(str), &vertices[i])) {
// 値が正しい形式で書かれていない
return false;
}
}
dest->CreateChain(vertices, vertexCount);
return true;
}
b2Body *XmlWorldPartReader::ReadBody(
b2World &world, const DOMNode *bodyNode,
const std::vector< b2FixtureDef *> &fixtureDefs
) {
DOMXPathNSResolver *resolver = doc->createNSResolver(bodyNode);
if (resolver == nullptr) {
return nullptr;
}
b2BodyDef bodyDef;
bodyDef.position.SetZero();
bodyDef.angle = 0.0f;
bodyDef.fixedRotation = false;
bodyDef.type = b2_dynamicBody;
bodyDef.gravityScale = 1.0f;
DOMXPathResult *result;
YPT::XmlString str;
// position
result = doc->evaluate(
YPT::XmlString("./position"), bodyNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
YPT::ConvertStrToVec2(std::string(str), &bodyDef.position);
}
result->release();
}
// angle
result = doc->evaluate(
YPT::XmlString("./angle"), bodyNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
float temp;
if (YPT::ConvertStrToFloat(std::string(str), &temp)) {
// 度からラジアンへ変換
bodyDef.angle = temp * YPT::PI / 180;
}
}
result->release();
}
// fixedRotation
result = doc->evaluate(
YPT::XmlString("./fixedRotation"), bodyNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
YPT::ConvertStrToBool(std::string(str), &bodyDef.fixedRotation);
}
result->release();
}
// type
result = doc->evaluate(
YPT::XmlString("./type"), bodyNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
if (str == "dynamic") {
bodyDef.type = b2_dynamicBody;
} else if (str == "static") {
bodyDef.type = b2_staticBody;
} else if (str == "kinematic") {
bodyDef.type = b2_kinematicBody;
} else {
// 未対応
}
}
result->release();
}
// gravityScale
result = doc->evaluate(
YPT::XmlString("./gravityScale"), bodyNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
YPT::ConvertStrToFloat(std::string(str), &bodyDef.gravityScale);
}
result->release();
}
b2Body *body = world.CreateBody(&bodyDef);
if (body == NULL) {
return NULL;
}
for (std::vector< b2FixtureDef *>::const_iterator it
= fixtureDefs.begin(); it != fixtureDefs.end(); ++it)
{
if (*it != NULL)
body->CreateFixture(*it);
}
return body;
}
bool XmlWorldPartReader::ReadFixture(const DOMNode *fixtureNode,
b2Shape *shape, b2FixtureDef *dest)
{
DOMXPathNSResolver *resolver = doc->createNSResolver(fixtureNode);
if (resolver == nullptr) {
return nullptr;
}
DOMXPathResult *result;
YPT::XmlString str;
b2FixtureDef fixtureDef;
fixtureDef.friction = 0.5f;
fixtureDef.restitution = 0.5f;
fixtureDef.density = 1.0f;
// shape
fixtureDef.shape = shape;
// friction
result = doc->evaluate(
YPT::XmlString("./friction"), fixtureNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
YPT::ConvertStrToFloat(std::string(str), &fixtureDef.friction);
}
result->release();
}
// restitution
result = doc->evaluate(
YPT::XmlString("./restitution"), fixtureNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
YPT::ConvertStrToFloat(std::string(str), &fixtureDef.restitution);
}
result->release();
}
// density
result = doc->evaluate(
YPT::XmlString("./density"), fixtureNode, resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL
);
if (result != nullptr) {
if (result->getSnapshotLength() >= 1) {
str = result->getNodeValue()->getTextContent();
YPT::ConvertStrToFloat(std::string(str), &fixtureDef.density);
}
result->release();
}
*dest = fixtureDef;
return true;
}
int main(int argc, char *argv[])
{
if (argc < 5)
{
cout << currentDateTime() << "Usage: GTTagging.exe video_path flag_roi(1=true, 0=false) flag_load(1=true, 0=false) flag_saveROI(1=true, 0=false)\n";
return 1;
}
/*serialize_video();*/
string outFilename = "output_video.xml";
serializeVideo(outFilename);
removeTrailingSpace(outFilename);
path video_path (argv[1]);
string video_name = video_path.filename().replace_extension("").string();
cout << "video_path filename: " << video_name << endl;
string base_name = video_path.filename().replace_extension("").string();
cout << "base_name: " << base_name << endl;
string base_path = video_path.remove_filename().string();
cout << "base_path: " << base_path << endl;
ostringstream codebook_paramters_path;
codebook_paramters_path << base_path << "\\" << base_name << "_cparameters.dat";
cout << "cparameters filename: " << codebook_paramters_path.str() << endl;
ostringstream xml_path;
xml_path << base_path << "\\" << base_name << ".xml";
cout << "xml filename: " << xml_path.str() << endl;
path gt_xml_path (xml_path.str());
try {
XMLPlatformUtils::Initialize();
XQillaPlatformUtils::initialize();
} catch (const XMLException& eXerces) {
cerr << "Error during Xerces-C initialisation.\n"
<< "Xerces exception message: "
<< UTF8(eXerces.getMessage()) << endl;
return 1;
}
try
{
if (!exists(gt_xml_path))
{
cout << currentDateTime() << "File: " << gt_xml_path << " doesn't exist!" << endl;
return 1;
}
if (!exists(video_path))
{
cout << currentDateTime() << "File: " << video_path << " doesn't exist!" << endl;
return 1;
}
cout << currentDateTime() << "Processing " << video_path << " ..." << endl;
DOMImplementation* xqillaImplementation = DOMImplementationRegistry::getDOMImplementation(X("XPath2 3.0"));
DOMLSParser* xmlParser = xqillaImplementation->createLSParser(DOMImplementationLS::MODE_SYNCHRONOUS, 0);
DOMConfiguration* dc_parser = xmlParser->getDomConfig();
dc_parser->setParameter(XMLUni::fgDOMNamespaces, true);
dc_parser->setParameter(XMLUni::fgXercesSchema, true);
dc_parser->setParameter(XMLUni::fgDOMValidate, true);
DOMDocument* document = xmlParser->parseURI(xml_path.str().c_str());
if(document == 0) {
cerr << "Document not found: " << xml_path.str().c_str() << endl;
return 1;
}
const DOMXPathNSResolver* resolver = document->createNSResolver(document->getDocumentElement());
XQillaNSResolver* xqillaResolver = (XQillaNSResolver*)resolver;
xqillaResolver->addNamespaceBinding(X("xs"), X("http://www.w3.org/2001/XMLSchema"));
xqillaResolver->addNamespaceBinding(X("fn"), X("http://www.w3.org/2005/xpath-functions"));
// Initialize Subsense
cv::VideoCapture oVideoInput;
cv::Mat oCurrInputFrame, oCurrSegmMask, oCurrReconstrBGImg;
oVideoInput.open(argv[1]);
oVideoInput >> oCurrInputFrame;
oVideoInput.set(CV_CAP_PROP_POS_FRAMES,0);
// create BGS Subsense object
BackgroundSubtractorSuBSENSE oBGSAlg;
// copy loadvars flag
if (strcmp(argv[3], "1") == 0) {
oBGSAlg.loadvars = true;
cout << currentDateTime() << "Pre-loading codebook ..." << endl;
} else {
oBGSAlg.loadvars = false;
cout << currentDateTime() << "Building codebook ..." << endl;
}
// check if open
if(!oVideoInput.isOpened() || oCurrInputFrame.empty()) {
printf("Could not open video file at '%s'.\n", argv[1]);
cv::waitKey();
return -1;
}
// Initialize Subsense variables
oCurrSegmMask.create(oCurrInputFrame.size(),CV_8UC1);
oCurrReconstrBGImg.create(oCurrInputFrame.size(),oCurrInputFrame.type());
// Depending on flag_roi load ROI or not
cv::Mat R;
if (strcmp(argv[2], "1") == 0) {
R = cv::imread("ROI.png",CV_8UC1);
} else {
R = cv::Mat(oCurrInputFrame.size(),CV_8UC1,cv::Scalar_<uchar>(255));
}
oBGSAlg.saveCodebookParametersPath(codebook_paramters_path.str());
oBGSAlg.initialize(oCurrInputFrame, R);
// create visualization windows
/*cv::namedWindow("input",cv::WINDOW_AUTOSIZE);
cv::namedWindow("segmentation mask",cv::WINDOW_AUTOSIZE);*/
int xml_roi_counter = 0;
int bgs_roi_counter = 0;
int frame_counter = 0;
//loop through video frames
while(1) {
try {
std::cout << "frame counter = " << frame_counter << std::endl;
oVideoInput >> oCurrInputFrame;
if(oCurrInputFrame.empty())
break;
//Process
oBGSAlg(oCurrInputFrame,oCurrSegmMask);
//oBGSAlg.getBackgroundImage(oCurrReconstrBGImg);
std::vector<F_state_struct> F_states;
// TODO Add function to static lib.
getRegions(oCurrSegmMask, F_states, pminArea);
std::ostringstream object_xpath_expression;
object_xpath_expression << "//object[../@id=\""<< frame_counter++ << "\"]";
cout << currentDateTime() << "object_xpath_expression: " << object_xpath_expression.str() << endl;
const DOMXPathExpression* parsedExpression = document->createExpression(X(object_xpath_expression.str().c_str()), resolver);
DOMXPathResult* iteratorResult = (DOMXPathResult*)parsedExpression->evaluate(document->getDocumentElement(), DOMXPathResult::ITERATOR_RESULT_TYPE, 0);
/*ostringstream xml_rois_path;
xml_rois_path << base_path << "\\" << base_name << "_xml_rois";
cout << "xml_rois_path filename: " << xml_rois_path.str() << endl;
path xml_rois_dir (xml_rois_path.str());
if(!exists(xml_rois_dir)) {
if (create_directories(xml_rois_dir)) {
cout << currentDateTime() << "xml_rois_dir created!" << endl;
} else {
cout << currentDateTime() << "Cannot create xml_rois_dir!" << endl;
return 1;
}
}*/
ostringstream bgs_rois_path;
bgs_rois_path << base_path << "\\" << base_name << "_bgs_rois";
cout << "bgs_rois_path filename: " << bgs_rois_path.str() << endl;
path bgs_rois_dir (bgs_rois_path.str());
if(!exists(bgs_rois_dir)) {
if (create_directories(bgs_rois_dir)) {
cout << currentDateTime() << "bgs_rois_dir created!" << endl;
} else {
cout << currentDateTime() << "Cannot create bgs_rois_dir!" << endl;
return 1;
}
}
int i = 0;
while(iteratorResult->iterateNext()) {
if(iteratorResult->isNode()) {
DOMNode* n (iteratorResult->getNodeValue ());
char * localName = XMLString::transcode(n->getLocalName());
//cout << currentDateTime() << "Localname: " << localName << endl;
DOMElement* resultElement = dynamic_cast<DOMElement*>(n);
if(strcmp( localName, "object") == 0) {
object* o = new object (*resultElement);
int w = o->w().get();
int h = o->h().get();
int x = o->x().get();
int y = o->y().get();
cout << currentDateTime() << "fish_species: " << o->fish_species().get() << endl;
cout << currentDateTime() << "h: " << h << endl;
cout << currentDateTime() << "w: " << w << endl;
cout << currentDateTime() << "x: " << x << endl;
cout << currentDateTime() << "y: " << y << endl;
try
{
ostringstream fish_specie_path;
fish_specie_path << base_path << "\\" << o->fish_species().get();
cout << "fish_specie_path filename: " << fish_specie_path.str() << endl;
path fish_specie_dir (fish_specie_path.str());
if(!exists(fish_specie_dir)) {
if (create_directories(fish_specie_dir)) {
cout << currentDateTime() << "bgs_rois_dir created!" << endl;
} else {
cout << currentDateTime() << "Cannot create fish_specie_dir!" << endl;
return 1;
}
}
std::cout << "XML ROI: " << x << " , " << y << " , " << x+w << " , " << y+h << std::endl;
Rect xml_roi_rectangle = Rect(Point(x, y), Point(x+w, y+h));
Mat xmlROI, xmlROI_bg;
Mat xmlROIMask = oCurrSegmMask(xml_roi_rectangle);
xml_roi_counter++;
oCurrInputFrame(xml_roi_rectangle).copyTo(xmlROI_bg);
sprintf(printf_buffer, "%s\\%s_roi%04d_bg.png", fish_specie_path.str().c_str(), base_name, xml_roi_counter);
cout << currentDateTime() << "Saving to: " << printf_buffer << endl;
imwrite(printf_buffer, xmlROI_bg);
cout << currentDateTime() << "Saved..." << endl;
oCurrInputFrame(xml_roi_rectangle).copyTo(xmlROI, xmlROIMask);
sprintf(printf_buffer, "%s\\%s_roi%04d.png\0", fish_specie_path.str().c_str(), base_name, xml_roi_counter);
cout << currentDateTime() << "Saving to: " << printf_buffer << endl;
imwrite(printf_buffer, xmlROI);
cout << currentDateTime() << "Saved..." << endl;
//rectangle( oCurrInputFrame, Point(x, y), Point(x+w, y+h), Scalar( 255, 9, 0 ), +3, 4 );
}
catch (exception& e)
{
cout << "Error: " << e.what() << '\n';
}
}
}
}
for(int i=0; i<F_states.size(); i++) {
std::cout << "BGS ROI: " << F_states.at(i).min_x << " , " << F_states.at(i).min_y << " , " << F_states.at(i).max_x << " , " << F_states.at(i).max_y << std::endl;
Rect bgs_roi_rectangle = Rect(Point(F_states.at(i).min_x, F_states.at(i).min_y), Point(F_states.at(i).max_x, F_states.at(i).max_y));
Mat bgsROI, bgsROI_bg;
Mat bgsROIMask = oCurrSegmMask(bgs_roi_rectangle);
bgs_roi_counter++;
oCurrInputFrame(bgs_roi_rectangle).copyTo(bgsROI_bg);
sprintf(printf_buffer, "%s\\roi%04d_bg.png", bgs_rois_path.str().c_str(), bgs_roi_counter);
cout << currentDateTime() << "Saving to: " << printf_buffer << endl;
imwrite(printf_buffer, bgsROI_bg);
cout << currentDateTime() << "Saved..." << endl;
oCurrInputFrame(bgs_roi_rectangle).copyTo(bgsROI, bgsROIMask);
sprintf(printf_buffer, "%s\\roi%04d.png\0", bgs_rois_path.str().c_str(), bgs_roi_counter);
cout << currentDateTime() << "Saving to: " << printf_buffer << endl;
imwrite(printf_buffer, bgsROI);
cout << currentDateTime() << "Saved..." << endl;
//rectangle( oCurrInputFrame, Point(F_states.at(i).min_x, F_states.at(i).min_y), Point(F_states.at(i).max_x, F_states.at(i).max_y), Scalar( 0, 55, 255 ), +3, 4 );
}
//Background Subtraction Visualization
/*imshow("input",oCurrInputFrame);
imshow("segmentation mask",oCurrSegmMask);*/
//imshow("reconstructed background",oCurrReconstrBGImg);
/*if(cv::waitKey(1)==27)
break;*/
//Save subsense codebooks and parameters
if (strcmp(argv[4], "1") == 0) {
oBGSAlg.saveVariables();
}
} catch(DOMXPathException &e) {
cerr << "DOMXPathException: " << UTF8(e.msg) << endl;
return 1;
} catch(DOMException &e) {
cerr << "DOMException: " << UTF8(e.getMessage()) << endl;
return 1;
}
}
} catch (const filesystem_error& ex) {
cout << currentDateTime() << ex.what() << '\n';
}
XQillaPlatformUtils::terminate();
XMLPlatformUtils::Terminate();
return 0;
}
