Hi,
Attached is a small fix in the osgjs plugin. Since osgjs uses pixel area
for PIXEL_SIZE_ON_SCREEN PagedLOD ranges instead of a diameter, it's a
more correct approximation to square the ranges in this case.
Regards,
Andreas
#include "WriteVisitor"
#include <osgDB/WriteFile>
#include <osgDB/FileUtils>
#include <osgDB/ReadFile>
#include <osgDB/FileNameUtils>
#include <osg/UserDataContainer>
#include <osg/TextureRectangle>
#include <osg/Texture2D>
#include <osg/Texture1D>
#include <osg/Types>
#include <osg/Material>
#include <osg/BlendFunc>
#include <osgText/Text>
#include <osgAnimation/MorphGeometry>
#include "Base64"
osg::Array* getTangentSpaceArray(osg::Geometry& geometry) {
for(unsigned int i = 0 ; i < geometry.getNumVertexAttribArrays() ; ++ i) {
osg::Array* attribute = geometry.getVertexAttribArray(i);
bool isTangentArray = false;
if(attribute && attribute->getUserValue("tangent", isTangentArray) &&
isTangentArray) {
return attribute;
}
}
return 0;
}
osg::Array* getAnimationBonesArray(osgAnimation::RigGeometry& rigGeometry) {
for(unsigned int i = 0 ; i < rigGeometry.getNumVertexAttribArrays() ; ++ i)
{
osg::Array* attribute = rigGeometry.getVertexAttribArray(i);
bool isBones = false;
if(attribute && attribute->getUserValue("bones", isBones) && isBones) {
return attribute;
}
}
return 0;
}
osg::Array* getAnimationWeightsArray(osgAnimation::RigGeometry& rigGeometry) {
for(unsigned int i = 0 ; i < rigGeometry.getNumVertexAttribArrays() ; ++ i)
{
osg::Array* attribute = rigGeometry.getVertexAttribArray(i);
bool isWeights = false;
if(attribute && attribute->getUserValue("weights", isWeights) &&
isWeights) {
return attribute;
}
}
return 0;
}
osg::ref_ptr<JSONObject> buildRigBoneMap(osgAnimation::RigGeometry&
rigGeometry) {
osg::Array* bones = getAnimationBonesArray(rigGeometry);
osg::ref_ptr<JSONObject> boneMap = new JSONObject;
unsigned int paletteIndex = 0;
while(true) {
std::ostringstream oss;
oss << "animationBone_" << paletteIndex;
std::string boneName, palette = oss.str();
if(!bones->getUserValue(palette, boneName)) {
break;
}
boneMap->getMaps()[boneName] = new JSONValue<int>(paletteIndex);
++ paletteIndex;
}
return boneMap;
}
void getStringifiedUserValue(osg::Object* o, std::string& name, std::string&
value) {
if(getStringifiedUserValue<std::string>(o, name, value)) return;
if(getStringifiedUserValue<char>(o, name, value)) return;
if(getStringifiedUserValue<bool>(o, name, value)) return;
if(getStringifiedUserValue<short>(o, name, value)) return;
if(getStringifiedUserValue<unsigned short>(o, name, value)) return;
if(getStringifiedUserValue<int>(o, name, value)) return;
if(getStringifiedUserValue<unsigned int>(o, name, value)) return;
if(getStringifiedUserValue<float>(o, name, value)) return;
if(getStringifiedUserValue<double>(o, name, value)) return;
}
template<typename T>
bool getStringifiedUserValue(osg::Object* o, std::string& name, std::string&
value) {
osg::TemplateValueObject<T>* vo = dynamic_cast<
osg::TemplateValueObject<T>* >(o);
if (vo) {
std::ostringstream oss;
oss << vo->getValue();
name = vo->getName();
value = oss.str();
return true;
}
return false;
}
static JSONValue<std::string>* getBlendFuncMode(GLenum mode) {
switch (mode) {
case osg::BlendFunc::DST_ALPHA: return new
JSONValue<std::string>("DST_ALPHA");
case osg::BlendFunc::DST_COLOR: return new
JSONValue<std::string>("DST_COLOR");
case osg::BlendFunc::ONE: return new JSONValue<std::string>("ONE");
case osg::BlendFunc::ONE_MINUS_DST_ALPHA: return new
JSONValue<std::string>("ONE_MINUS_DST_ALPHA");
case osg::BlendFunc::ONE_MINUS_DST_COLOR: return new
JSONValue<std::string>("ONE_MINUS_DST_COLOR");
case osg::BlendFunc::ONE_MINUS_SRC_ALPHA: return new
JSONValue<std::string>("ONE_MINUS_SRC_ALPHA");
case osg::BlendFunc::ONE_MINUS_SRC_COLOR: return new
JSONValue<std::string>("ONE_MINUS_SRC_COLOR");
case osg::BlendFunc::SRC_ALPHA: return new
JSONValue<std::string>("SRC_ALPHA");
case osg::BlendFunc::SRC_ALPHA_SATURATE: return new
JSONValue<std::string>("SRC_ALPHA_SATURATE");
case osg::BlendFunc::SRC_COLOR: return new
JSONValue<std::string>("SRC_COLOR");
case osg::BlendFunc::CONSTANT_COLOR: return new
JSONValue<std::string>("CONSTANT_COLOR");
case osg::BlendFunc::ONE_MINUS_CONSTANT_COLOR: return new
JSONValue<std::string>("ONE_MINUS_CONSTANT_COLOR");
case osg::BlendFunc::CONSTANT_ALPHA: return new
JSONValue<std::string>("CONSTANT_ALPHA");
case osg::BlendFunc::ONE_MINUS_CONSTANT_ALPHA: return new
JSONValue<std::string>("ONE_MINUS_CONSTANT_ALPHA");
case osg::BlendFunc::ZERO: return new JSONValue<std::string>("ZERO");
default:
return new JSONValue<std::string>("ONE");
}
}
static JSONValue<std::string>* getJSONFilterMode(osg::Texture::FilterMode mode)
{
switch(mode) {
case GL_LINEAR:
return new JSONValue<std::string>("LINEAR");
case GL_LINEAR_MIPMAP_LINEAR:
return new JSONValue<std::string>("LINEAR_MIPMAP_LINEAR");
case GL_LINEAR_MIPMAP_NEAREST:
return new JSONValue<std::string>("LINEAR_MIPMAP_NEAREST");
case GL_NEAREST:
return new JSONValue<std::string>("NEAREST");
case GL_NEAREST_MIPMAP_LINEAR:
return new JSONValue<std::string>("NEAREST_MIPMAP_LINEAR");
case GL_NEAREST_MIPMAP_NEAREST:
return new JSONValue<std::string>("NEAREST_MIPMAP_NEAREST");
default:
return 0;
}
return 0;
}
static JSONValue<std::string>* getJSONWrapMode(osg::Texture::WrapMode mode)
{
switch(mode) {
case GL_CLAMP:
// clamp does not exist in opengles 2.0
//return new JSONValue<std::string>("CLAMP");
return new JSONValue<std::string>("CLAMP_TO_EDGE");
case GL_CLAMP_TO_EDGE:
return new JSONValue<std::string>("CLAMP_TO_EDGE");
case GL_CLAMP_TO_BORDER_ARB:
return new JSONValue<std::string>("CLAMP_TO_BORDER");
case GL_REPEAT:
return new JSONValue<std::string>("REPEAT");
case GL_MIRRORED_REPEAT_IBM:
return new JSONValue<std::string>("MIRROR");
default:
return 0;
}
return 0;
}
static JSONValue<std::string>*
getJSONAlignmentType(osgText::Text::AlignmentType type)
{
switch(type) {
case osgText::Text::LEFT_TOP:
return new JSONValue<std::string>("LEFT_TOP");
case osgText::Text::LEFT_CENTER:
return new JSONValue<std::string>("LEFT_CENTER");
case osgText::Text::LEFT_BOTTOM:
return new JSONValue<std::string>("LEFT_BOTTOM");
case osgText::Text::CENTER_TOP:
return new JSONValue<std::string>("CENTER_TOP");
case osgText::Text::CENTER_CENTER:
return new JSONValue<std::string>("CENTER_CENTER");
case osgText::Text::CENTER_BOTTOM:
return new JSONValue<std::string>("CENTER_BOTTOM");
case osgText::Text::RIGHT_TOP:
return new JSONValue<std::string>("RIGHT_TOP");
case osgText::Text::RIGHT_CENTER:
return new JSONValue<std::string>("RIGHT_CENTER");
case osgText::Text::RIGHT_BOTTOM:
return new JSONValue<std::string>("RIGHT_BOTTOM");
case osgText::Text::LEFT_BASE_LINE:
return new JSONValue<std::string>("LEFT_BASE_LINE");
case osgText::Text::CENTER_BASE_LINE:
return new JSONValue<std::string>("CENTER_BASE_LINE");
case osgText::Text::RIGHT_BASE_LINE:
return new JSONValue<std::string>("RIGHT_BASE_LINE");
case osgText::Text::LEFT_BOTTOM_BASE_LINE:
return new JSONValue<std::string>("LEFT_BOTTOM_BASE_LINE");
case osgText::Text::CENTER_BOTTOM_BASE_LINE:
return new JSONValue<std::string>("CENTER_BOTTOM_BASE_LINE");
case osgText::Text::RIGHT_BOTTOM_BASE_LINE:
return new JSONValue<std::string>("RIGHT_BOTTOM_BASE_LINE");
default:
return 0;
}
return 0;
}
JSONObject* createImage(osg::Image* image, bool inlineImages, int
maxTextureDimension, const std::string &baseName)
{
if (!image) {
osg::notify(osg::WARN) << "unknown image from texture2d " << std::endl;
return new JSONValue<std::string>("/unknown.png");
} else {
std::string modelDir = osgDB::getFilePath(baseName);
if (!image->getFileName().empty() && image->getWriteHint() !=
osg::Image::STORE_INLINE) {
if(maxTextureDimension) {
int new_s = osg::Image::computeNearestPowerOfTwo(image->s());
int new_t = osg::Image::computeNearestPowerOfTwo(image->t());
bool notValidPowerOf2 = false;
if (new_s != image->s() || image->s() > maxTextureDimension)
notValidPowerOf2 = true;
if (new_t != image->t() || image->t() > maxTextureDimension)
notValidPowerOf2 = true;
if (notValidPowerOf2) {
image->ensureValidSizeForTexturing(maxTextureDimension);
if(osgDB::isAbsolutePath(image->getFileName()))
osgDB::writeImageFile(*image, image->getFileName());
else
osgDB::writeImageFile(*image,
osgDB::concatPaths(modelDir,
image->getFileName()));
}
}
} else {
// no image file so use this inline name image and create a file
std::stringstream ss;
if ( !osgDB::getFilePath(baseName).empty())
ss << osgDB::getFilePath(baseName) <<
osgDB::getNativePathSeparator();
ss << (int64_t)image << ".inline_conv_generated.png"; // write the
pointer location
std::string filename = ss.str();
if (osgDB::writeImageFile(*image, filename)) {
image->setFileName(filename);
}
}
if (!image->getFileName().empty()) { // means that everything went ok
if (inlineImages) {
std::ifstream
in(osgDB::findDataFile(image->getFileName()).c_str(), std::ifstream::in |
std::ifstream::binary);
if (in.is_open() && in.good())
{
// read file first to iterate
in.seekg(0, std::ifstream::end);
const std::ifstream::pos_type size = in.tellg();
in.seekg(0, std::ifstream::beg);
std::vector<unsigned char> rawData;
rawData.resize(size);
in.read(reinterpret_cast<char*>(rawData.data()),size);
in.seekg(std::ios_base::beg);
std::stringstream out;
out << "data:image/" <<
osgDB::getLowerCaseFileExtension(image->getFileName()) << ";base64,";
base64::encode(std::istreambuf_iterator<char>(in),
std::istreambuf_iterator<char>(),
std::ostreambuf_iterator<char>(out), false);
return new JSONValue<std::string>(out.str());
}
}
return new JSONValue<std::string>(image->getFileName());
}
}
return 0;
}
JSONObject* WriteVisitor::createJSONOsgSimUserData(osgSim::ShapeAttributeList*
osgSimData) {
JSONObject* jsonUDC = new JSONObject();
jsonUDC->addUniqueID();
JSONArray* jsonUDCArray = new JSONArray();
jsonUDC->getMaps()["Values"] = jsonUDCArray;
for (unsigned int i = 0; i < osgSimData->size(); i++) {
const osgSim::ShapeAttribute& attr = (*osgSimData)[i];
JSONObject* jsonEntry = new JSONObject();
jsonEntry->getMaps()["Name"] = new
JSONValue<std::string>(attr.getName());
osg::ref_ptr<JSONValue<std::string> > value;
switch(attr.getType()) {
case osgSim::ShapeAttribute::INTEGER:
{
std::stringstream ss;
ss << attr.getInt();
value = new JSONValue<std::string>(ss.str());
}
break;
case osgSim::ShapeAttribute::DOUBLE:
{
std::stringstream ss;
ss << attr.getDouble();
value = new JSONValue<std::string>(ss.str());
}
break;
case osgSim::ShapeAttribute::STRING:
{
std::stringstream ss;
ss << attr.getString();
value = new JSONValue<std::string>(ss.str());
}
break;
case osgSim::ShapeAttribute::UNKNOWN:
default:
break;
}
jsonEntry->getMaps()["Value"] = value;
jsonUDCArray->getArray().push_back(jsonEntry);
}
return jsonUDC;
}
JSONObject* WriteVisitor::createJSONUserDataContainer(osg::UserDataContainer*
container) {
JSONObject* jsonUDC = new JSONObject();
jsonUDC->addUniqueID();
if (!container->getName().empty()) {
jsonUDC->getMaps()["Name"] = new
JSONValue<std::string>(container->getName());
}
JSONArray* jsonUDCArray = new JSONArray();
jsonUDC->getMaps()["Values"] = jsonUDCArray;
for (unsigned int i = 0; i < container->getNumUserObjects(); i++) {
osg::Object* o = container->getUserObject(i);
std::string name, value;
getStringifiedUserValue(o, name, value);
if(!name.empty() && !value.empty())
{
JSONObject* jsonEntry = new JSONObject();
jsonEntry->getMaps()["Name"] = new JSONValue<std::string>(name);
jsonEntry->getMaps()["Value"] = new JSONValue<std::string>(value);
jsonUDCArray->getArray().push_back(jsonEntry);
}
}
return jsonUDC;
}
void WriteVisitor::translateObject(JSONObject* json, osg::Object* osg)
{
if (!osg->getName().empty()) {
json->getMaps()["Name"] = new JSONValue<std::string>(osg->getName());
}
JSONObject* jsonUDC = 0;
osgSim::ShapeAttributeList* osgSimData =
dynamic_cast<osgSim::ShapeAttributeList* >(osg->getUserData());
if (osgSimData) {
jsonUDC = this->getJSON(osgSimData);
if(!jsonUDC) {
jsonUDC = createJSONOsgSimUserData(osgSimData);
this->setJSON(osgSimData, jsonUDC);
}
}
else if (osg::UserDataContainer* container = osg->getUserDataContainer()) {
jsonUDC = this->getJSON(container);
if(!jsonUDC) {
jsonUDC = createJSONUserDataContainer(container);
this->setJSON(container, jsonUDC);
}
}
if(jsonUDC) {
json->getMaps()["UserDataContainer"] = jsonUDC;
}
}
JSONObject* WriteVisitor::createJSONBufferArray(osg::Array* array, osg::Object*
parent)
{
if (_maps.find(array) != _maps.end())
return _maps[array]->getShadowObject();
osg::ref_ptr<JSONBufferArray> json = new JSONBufferArray(array);
_maps[array] = json;
if(_mergeAllBinaryFiles) {
setBufferName(json.get(), parent, array);
}
return json.get();
}
JSONObject* WriteVisitor::createJSONDrawElementsUInt(osg::DrawElementsUInt* de,
osg::Object* parent)
{
if (_maps.find(de) != _maps.end())
return _maps[de]->getShadowObject();
JSONDrawElements<osg::DrawElementsUInt>* json = new
JSONDrawElements<osg::DrawElementsUInt>(*de);
_maps[de] = json;
if(_mergeAllBinaryFiles) {
setBufferName(json, parent, de);
}
return json;
}
JSONObject* WriteVisitor::createJSONDrawElementsUShort(osg::DrawElementsUShort*
de, osg::Object* parent)
{
if (_maps.find(de) != _maps.end())
return _maps[de]->getShadowObject();
JSONDrawElements<osg::DrawElementsUShort>* json = new
JSONDrawElements<osg::DrawElementsUShort>(*de);
_maps[de] = json;
if(_mergeAllBinaryFiles) {
setBufferName(json, parent, de);
}
return json;
}
JSONObject* WriteVisitor::createJSONDrawElementsUByte(osg::DrawElementsUByte*
de, osg::Object* parent)
{
if (_maps.find(de) != _maps.end())
return _maps[de]->getShadowObject();
JSONDrawElements<osg::DrawElementsUByte>* json = new
JSONDrawElements<osg::DrawElementsUByte>(*de);
_maps[de] = json;
if(_mergeAllBinaryFiles) {
setBufferName(json, parent, de);
}
return json;
}
// use to convert draw array quads to draw elements triangles
JSONObject* WriteVisitor::createJSONDrawElements(osg::DrawArrays* drawArray,
osg::Object* parent)
{
if (_maps.find(drawArray) != _maps.end())
return _maps[drawArray]->getShadowObject();
if (drawArray->getMode() != GL_QUADS) {
osg::notify(osg::WARN) << "" << std::endl;
return 0;
}
osg::ref_ptr<osg::DrawElementsUShort> de = new
osg::DrawElementsUShort(GL_TRIANGLES);
for (int i = 0; i < drawArray->getCount()/4; ++i) {
int base = drawArray->getFirst() + i*4;
de->push_back(base + 0);
de->push_back(base + 1);
de->push_back(base + 3);
de->push_back(base + 1);
de->push_back(base + 2);
de->push_back(base + 3);
}
JSONDrawElements<osg::DrawElementsUShort>* json = new
JSONDrawElements<osg::DrawElementsUShort>(*de);
_maps[drawArray] = json;
if(_mergeAllBinaryFiles) {
setBufferName(json, parent, drawArray);
}
return json;
}
JSONObject* WriteVisitor::createJSONDrawArray(osg::DrawArrays* da, osg::Object*
parent)
{
if (_maps.find(da) != _maps.end())
return _maps[da]->getShadowObject();
osg::ref_ptr<JSONDrawArray> json = new JSONDrawArray(*da);
_maps[da] = json;
if(_mergeAllBinaryFiles) {
setBufferName(json.get(), parent, da);
}
return json.get();
}
JSONObject* WriteVisitor::createJSONDrawArrayLengths(osg::DrawArrayLengths* da,
osg::Object* parent)
{
if (_maps.find(da) != _maps.end())
return _maps[da]->getShadowObject();
osg::ref_ptr<JSONDrawArrayLengths> json = new JSONDrawArrayLengths(*da);
_maps[da] = json;
if(_mergeAllBinaryFiles) {
setBufferName(json.get(), parent, da);
}
return json.get();
}
JSONObject* WriteVisitor::createJSONGeometry(osg::Geometry* geometry,
osg::Object* parent)
{
if(!parent) {
parent = geometry;
}
if (_maps.find(geometry) != _maps.end())
return _maps[geometry]->getShadowObject();
osg::ref_ptr<JSONObject> json = new JSONObject;
json->addUniqueID();
_maps[geometry] = json;
if (geometry->getStateSet())
createJSONStateSet(json.get(), geometry->getStateSet());
translateObject(json.get(), geometry);
osg::ref_ptr<JSONObject> attributes = new JSONObject;
int nbVertexes = 0;
if (geometry->getVertexArray()) {
nbVertexes = geometry->getVertexArray()->getNumElements();
attributes->getMaps()["Vertex"] =
createJSONBufferArray(geometry->getVertexArray(), parent);
}
if (geometry->getNormalArray()) {
attributes->getMaps()["Normal"] =
createJSONBufferArray(geometry->getNormalArray(), parent);
int nb = geometry->getNormalArray()->getNumElements();
if (nbVertexes != nb) {
osg::notify(osg::FATAL) << "Fatal nb normals " << nb << " != " <<
nbVertexes << std::endl;
error();
}
}
if (geometry->getColorArray()) {
attributes->getMaps()["Color"] =
createJSONBufferArray(geometry->getColorArray(), parent);
int nb = geometry->getColorArray()->getNumElements();
if (nbVertexes != nb) {
osg::notify(osg::FATAL) << "Fatal nb colors " << nb << " != " <<
nbVertexes << std::endl;
error();
}
}
std::stringstream ss;
for ( int i = 0; i < 32; i++) {
ss.str("");
ss << "TexCoord" << i;
//osg::notify(osg::NOTICE) << ss.str() << std::endl;
if (geometry->getTexCoordArray(i)) {
attributes->getMaps()[ss.str()] =
createJSONBufferArray(geometry->getTexCoordArray(i), parent);
int nb = geometry->getTexCoordArray(i)->getNumElements();
if (nbVertexes != nb) {
osg::notify(osg::FATAL) << "Fatal nb tex coord " << i << " " <<
nb << " != " << nbVertexes << std::endl;
error();
}
}
}
osg::Array* tangents = getTangentSpaceArray(*geometry);
if (tangents) {
attributes->getMaps()["Tangent"] = createJSONBufferArray(tangents,
parent);
int nb = tangents->getNumElements();
if (nbVertexes != nb) {
osg::notify(osg::FATAL) << "Fatal nb tangent " << nb << " != " <<
nbVertexes << std::endl;
error();
}
}
json->getMaps()["VertexAttributeList"] = attributes;
if (!geometry->getPrimitiveSetList().empty()) {
osg::ref_ptr<JSONArray> primitives = new JSONArray();
for (unsigned int i = 0; i < geometry->getNumPrimitiveSets(); ++i) {
osg::ref_ptr<JSONObject> obj = new JSONObject;
osg::PrimitiveSet* primitive = geometry->getPrimitiveSet(i);
if(!primitive) continue;
if (primitive->getType() ==
osg::PrimitiveSet::DrawArraysPrimitiveType) {
osg::DrawArrays* da =
dynamic_cast<osg::DrawArrays*>((primitive));
if (da)
{
primitives->getArray().push_back(obj);
if (da->getMode() == GL_QUADS) {
obj->getMaps()["DrawElementsUShort"] =
createJSONDrawElements(da, parent);
} else {
obj->getMaps()["DrawArrays"] = createJSONDrawArray(da,
parent);
}
}
} else if (primitive->getType() ==
osg::PrimitiveSet::DrawElementsUIntPrimitiveType) {
osg::DrawElementsUInt* da =
dynamic_cast<osg::DrawElementsUInt*>((primitive));
if (da)
{
primitives->getArray().push_back(obj);
obj->getMaps()["DrawElementsUInt"] =
createJSONDrawElementsUInt(da, parent);
}
} else if (primitive->getType() ==
osg::PrimitiveSet::DrawElementsUShortPrimitiveType) {
osg::DrawElementsUShort* da =
dynamic_cast<osg::DrawElementsUShort*>((primitive));
if (da)
{
primitives->getArray().push_back(obj);
obj->getMaps()["DrawElementsUShort"] =
createJSONDrawElementsUShort(da, parent);
}
} else if (primitive->getType() ==
osg::PrimitiveSet::DrawElementsUBytePrimitiveType) {
osg::DrawElementsUByte* da =
dynamic_cast<osg::DrawElementsUByte*>((primitive));
if (da)
{
primitives->getArray().push_back(obj);
obj->getMaps()["DrawElementsUByte"] =
createJSONDrawElementsUByte(da, parent);
}
} else if (primitive->getType() ==
osg::PrimitiveSet::DrawArrayLengthsPrimitiveType) {
osg::DrawArrayLengths* dal =
dynamic_cast<osg::DrawArrayLengths*>((primitive));
if (dal)
{
primitives->getArray().push_back(obj);
obj->getMaps()["DrawArrayLengths"] =
createJSONDrawArrayLengths(dal, parent);
}
} else {
osg::notify(osg::WARN) << "Primitive Type " <<
geometry->getPrimitiveSetList()[i]->getType() << " not supported, skipping" <<
std::endl;
}
}
json->getMaps()["PrimitiveSetList"] = primitives;
}
if (geometry->getComputeBoundingBoxCallback()) {
osg::ref_ptr<JSONObject> jsonObj = new JSONObject;
jsonObj->addUniqueID();
json->getMaps()["osg.ComputeBoundingBoxCallback"] = jsonObj;
}
return json.get();
}
JSONObject* WriteVisitor::createJSONRigGeometry(osgAnimation::RigGeometry*
rigGeometry)
{
//TODO : Convert data to JSONVertexArray "Float32Array"
osg::ref_ptr<JSONObject> json = new JSONObject;
json->addUniqueID();
osg::ref_ptr<JSONObject> sourceGeometry = new JSONObject;
if(osgAnimation::MorphGeometry *morphGeometry =
dynamic_cast<osgAnimation::MorphGeometry*>(rigGeometry->getSourceGeometry())) {
sourceGeometry->getMaps()["osgAnimation.MorphGeometry"] =
createJSONMorphGeometry(morphGeometry, rigGeometry);
}
else {
osg::Geometry *geometry =
dynamic_cast<osg::Geometry*>(rigGeometry->getSourceGeometry());
if(geometry) {
sourceGeometry->getMaps()["osg.Geometry"] =
createJSONGeometry(geometry, rigGeometry);
}
}
json->getMaps()["SourceGeometry"] = sourceGeometry.get();
osg::Array* bones = getAnimationBonesArray(*rigGeometry);
osg::Array* weights = getAnimationWeightsArray(*rigGeometry);
if (bones && weights) {
json->getMaps()["BoneMap"] = buildRigBoneMap(*rigGeometry);
json->getMaps()["VertexAttributeList"] = new JSONObject;
osg::ref_ptr<JSONObject> attributes =
json->getMaps()["VertexAttributeList"];
int nbVertexes =
rigGeometry->getSourceGeometry()->getVertexArray()->getNumElements();
attributes->getMaps()["Bones"] = createJSONBufferArray(bones,
rigGeometry);
attributes->getMaps()["Weights"] = createJSONBufferArray(weights,
rigGeometry);
int nb = bones->getNumElements();
if (nbVertexes != nb) {
osg::notify(osg::FATAL) << "Fatal nb bones " << nb << " != " <<
nbVertexes << std::endl;
error();
}
nb = weights->getNumElements();
if (nbVertexes != nb) {
osg::notify(osg::FATAL) << "Fatal nb weights " << nb << " != " <<
nbVertexes << std::endl;
error();
}
}
return json.release();
}
JSONObject* WriteVisitor::createJSONMorphGeometry(osgAnimation::MorphGeometry*
morphGeometry, osg::Object* parent)
{
if(!parent) {
parent = morphGeometry;
}
JSONObject* jsonGeometry = createJSONGeometry(morphGeometry, parent);
osg::ref_ptr<JSONArray> targetList = new JSONArray;
osgAnimation::MorphGeometry::MorphTargetList mTargetList =
morphGeometry->getMorphTargetList();
typedef osgAnimation::MorphGeometry::MorphTargetList::iterator
TargetIterator;
for(TargetIterator ti = mTargetList.begin(); ti != mTargetList.end(); ti++)
{
osgAnimation::MorphGeometry::MorphTarget *morphTarget = &(*ti);
if(osg::Geometry* geometry =
dynamic_cast<osg::Geometry*>(morphTarget->getGeometry())) {
osg::ref_ptr<JSONObject> jsonGeometryObject = new JSONObject;
geometry->setPrimitiveSetList(osg::Geometry::PrimitiveSetList());
//delete unused drawArray
jsonGeometryObject->getMaps()["osg.Geometry"] =
createJSONGeometry(geometry);
targetList->asArray()->getArray().push_back(jsonGeometryObject);
}
}
jsonGeometry->getMaps()["MorphTargets"] = targetList;
return jsonGeometry;
}
JSONObject* WriteVisitor::createJSONBlendFunc(osg::BlendFunc* sa)
{
if (_maps.find(sa) != _maps.end())
return _maps[sa]->getShadowObject();
osg::ref_ptr<JSONObject> json = new JSONObject;
json->addUniqueID();
_maps[sa] = json;
translateObject(json.get(), sa);
json->getMaps()["SourceRGB"] = getBlendFuncMode(sa->getSource());
json->getMaps()["DestinationRGB"] = getBlendFuncMode(sa->getDestination());
json->getMaps()["SourceAlpha"] = getBlendFuncMode(sa->getSourceAlpha());
json->getMaps()["DestinationAlpha"] =
getBlendFuncMode(sa->getDestinationAlpha());
return json.release();
}
JSONObject* WriteVisitor::createJSONBlendColor(osg::BlendColor* sa)
{
if (_maps.find(sa) != _maps.end())
return _maps[sa]->getShadowObject();
osg::ref_ptr<JSONObject> json = new JSONObject;
json->addUniqueID();
_maps[sa] = json;
translateObject(json.get(), sa);
json->getMaps()["ConstantColor"] = new
JSONVec4Array(sa->getConstantColor());
return json.release();
}
JSONObject* WriteVisitor::createJSONCullFace(osg::CullFace* sa)
{
if (_maps.find(sa) != _maps.end())
return _maps[sa]->getShadowObject();
osg::ref_ptr<JSONObject> json = new JSONObject;
json->addUniqueID();
_maps[sa] = json;
translateObject(json.get(), sa);
osg::ref_ptr<JSONValue<std::string> > mode = new
JSONValue<std::string>("BACK");
if (sa->getMode() == osg::CullFace::FRONT) {
mode = new JSONValue<std::string>("FRONT");
}
if (sa->getMode() == osg::CullFace::FRONT_AND_BACK) {
mode = new JSONValue<std::string>("FRONT_AND_BACK");
}
json->getMaps()["Mode"] = mode;
return json.release();
}
JSONObject* WriteVisitor::createJSONMaterial(osg::Material* material)
{
if (_maps.find(material) != _maps.end())
return _maps[material]->getShadowObject();
osg::ref_ptr<JSONObject> jsonMaterial = new JSONMaterial;
_maps[material] = jsonMaterial;
translateObject(jsonMaterial.get(), material);
jsonMaterial->getMaps()["Ambient"] = new
JSONVec4Array(material->getAmbient(osg::Material::FRONT));
jsonMaterial->getMaps()["Diffuse"] = new
JSONVec4Array(material->getDiffuse(osg::Material::FRONT));
jsonMaterial->getMaps()["Specular"] = new
JSONVec4Array(material->getSpecular(osg::Material::FRONT));
jsonMaterial->getMaps()["Emission"] = new
JSONVec4Array(material->getEmission(osg::Material::FRONT));
jsonMaterial->getMaps()["Shininess"] = new
JSONValue<float>(material->getShininess(osg::Material::FRONT));
return jsonMaterial.release();
}
JSONObject* WriteVisitor::createJSONLight(osg::Light* light)
{
if (_maps.find(light) != _maps.end())
return _maps[light]->getShadowObject();
osg::ref_ptr<JSONObject> jsonLight = new JSONLight;
_maps[light] = jsonLight;
translateObject(jsonLight.get(), light);
jsonLight->getMaps()["LightNum"] = new JSONValue<int>(light->getLightNum());
jsonLight->getMaps()["Ambient"] = new JSONVec4Array(light->getAmbient());
jsonLight->getMaps()["Diffuse"] = new JSONVec4Array(light->getDiffuse());
jsonLight->getMaps()["Specular"] = new JSONVec4Array(light->getSpecular());
jsonLight->getMaps()["Position"] = new JSONVec4Array(light->getPosition());
jsonLight->getMaps()["Direction"] = new
JSONVec3Array(light->getDirection());
jsonLight->getMaps()["ConstantAttenuation"] = new
JSONValue<float>(light->getConstantAttenuation());
jsonLight->getMaps()["LinearAttenuation"] = new
JSONValue<float>(light->getLinearAttenuation());
jsonLight->getMaps()["QuadraticAttenuation"] = new
JSONValue<float>(light->getQuadraticAttenuation());
jsonLight->getMaps()["SpotExponent"] = new
JSONValue<float>(light->getSpotExponent());
jsonLight->getMaps()["SpotCutoff"] = new
JSONValue<float>(light->getSpotCutoff());
return jsonLight.release();
}
template <class T>
JSONObject* createImageFromTexture(osg::Texture* texture, JSONObject*
jsonTexture, WriteVisitor* writer)
{
bool inlineImages = writer->getInlineImages();
int maxTextureDimension = writer->getMaxTextureDimension();
const std::string baseName = writer->getBaseName();
T* text = dynamic_cast<T*>( texture);
if (text) {
writer->translateObject(jsonTexture,text);
JSONObject* image = createImage(text->getImage(), inlineImages,
maxTextureDimension, baseName);
if (image)
jsonTexture->getMaps()["File"] = image;
return jsonTexture;
}
return 0;
}
JSONObject* WriteVisitor::createJSONText(osgText::Text* text)
{
if (_maps.find(text) != _maps.end())
return _maps[text]->getShadowObject();
osg::ref_ptr<JSONObject> jsonText = new JSONObject;
jsonText->addUniqueID();
_maps[text] = jsonText;
jsonText->getMaps()["Text"] = new JSONValue<std::string>(
text->getText().createUTF8EncodedString() );
jsonText->getMaps()["Position"] = new JSONVec3Array(text->getPosition());
jsonText->getMaps()["Color"] = new
JSONVec4Array(osg::Vec4(text->getColor().x(),text->getColor().y(),text->getColor().z(),
text->getColor().w() ));
jsonText->getMaps()["CharacterSize"] = new
JSONValue<float>(text->getCharacterHeight() );
jsonText->getMaps()["AutoRotateToScreen"] = new
JSONValue<int>(text->getAutoRotateToScreen() );
jsonText->getMaps()["Alignment"] =
getJSONAlignmentType(text->getAlignment());
osg::ref_ptr<JSONValue<std::string> > layout = new
JSONValue<std::string>("LEFT_TO_RIGHT");
if (text->getLayout() == osgText::Text::RIGHT_TO_LEFT) {
layout = new JSONValue<std::string>("RIGHT_TO_LEFT");
}
if (text->getLayout() == osgText::Text::VERTICAL) {
layout = new JSONValue<std::string>("VERTICAL");
}
jsonText->getMaps()["Layout"] = layout;
return jsonText.release();
}
JSONObject* WriteVisitor::createJSONPagedLOD(osg::PagedLOD *plod)
{
if (!plod) { return 0; }
if (_maps.find(plod) != _maps.end()) {
return _maps[plod]->getShadowObject();
}
osg::ref_ptr<JSONObject> jsonPlod = new JSONNode;
_maps[plod] = jsonPlod;
// Center Mode
osg::ref_ptr<JSONValue<std::string> > centerMode = new
JSONValue<std::string>("USE_BOUNDING_SPHERE_CENTER");
if (plod->getCenterMode() == osg::LOD::USER_DEFINED_CENTER) {
centerMode = new JSONValue<std::string>("USER_DEFINED_CENTER");
} else if (plod->getCenterMode() ==
osg::LOD::UNION_OF_BOUNDING_SPHERE_AND_USER_DEFINED){
centerMode = new
JSONValue<std::string>("UNION_OF_BOUNDING_SPHERE_AND_USER_DEFINED");
}
jsonPlod->getMaps()["CenterMode"] = centerMode;
// User defined center and radius
jsonPlod->getMaps()["UserCenter"] = new
JSONVec4Array(osg::Vec4(plod->getCenter().x(),
plod->getCenter().y(),plod->getCenter().z(), plod->getRadius()));
// Range Mode
osg::ref_ptr<JSONValue<std::string> > rangeMode = new
JSONValue<std::string>("DISTANCE_FROM_EYE_POINT");
if (plod->getRangeMode() == osg::LOD::PIXEL_SIZE_ON_SCREEN) {
rangeMode = new JSONValue<std::string>("PIXEL_SIZE_ON_SCREEN");
}
jsonPlod->getMaps()["RangeMode"] = rangeMode;
// Range List
osg::ref_ptr<JSONObject> rangeObject = new JSONObject;
for (unsigned int i =0; i< plod->getRangeList().size(); i++)
{
std::stringstream ss;
ss << "Range ";
ss << i;
std::string str = ss.str();
osg::Vec2 range(plod->getRangeList()[i].first,
plod->getRangeList()[i].second);
// Since OSGJS uses pixel area, use square range
if (plod->getRangeMode() == osg::LOD::PIXEL_SIZE_ON_SCREEN) {
range.set(pow(range.x(), 2.0f), pow(range.y(), 2.0f));
}
rangeObject->getMaps()[str] = new JSONVec2Array(range);
}
jsonPlod->getMaps()["RangeList"] = rangeObject;
// File List
osg::ref_ptr<JSONObject> fileObject = new JSONObject;
for (unsigned int i =0; i< plod->getNumFileNames(); i++)
{
std::stringstream ss;
ss << "File ";
ss << i;
std::string str = ss.str();
// We need to convert first from osg format to osgjs format.
osg::ref_ptr<osg::Node> n =
osgDB::readRefNodeFile(plod->getDatabasePath() + plod->getFileName(i)+".gles");
if (n)
{
std::string
filename(osgDB::getNameLessExtension(plod->getFileName(i))+".osgjs");
std::string fullFilePath(osgDB::getFilePath(_baseName) +
osgDB::getNativePathSeparator() + filename);
fileObject->getMaps()[str] = new
JSONValue<std::string>(_baseLodURL + filename);
osgDB::makeDirectoryForFile(fullFilePath);
if (_baseLodURL.empty())
_baseLodURL = osgDB::getFilePath(filename) +
osgDB::getNativePathSeparator() ;
osg::ref_ptr<osgDB::Options> options =
osgDB::Registry::instance()->getOptions()->cloneOptions();
options->setPluginStringData(std::string("baseLodURL"),
_baseLodURL);
osgDB::writeNodeFile(*n, fullFilePath, options.get());
}
else
fileObject->getMaps()[str] = new JSONValue<std::string>("");
}
jsonPlod->getMaps()["RangeDataList"] = fileObject;
return jsonPlod.release();
}
JSONObject* WriteVisitor::createJSONTexture(osg::Texture* texture)
{
if (!texture) {
return 0;
}
if (_maps.find(texture) != _maps.end()) {
return _maps[texture]->getShadowObject();
}
osg::ref_ptr<JSONObject> jsonTexture = new JSONObject;
jsonTexture->addUniqueID();
_maps[texture] = jsonTexture;
jsonTexture->getMaps()["MagFilter"] =
getJSONFilterMode(texture->getFilter(osg::Texture::MAG_FILTER));
jsonTexture->getMaps()["MinFilter"] =
getJSONFilterMode(texture->getFilter(osg::Texture::MIN_FILTER));
jsonTexture->getMaps()["WrapS"] =
getJSONWrapMode(texture->getWrap(osg::Texture::WRAP_S));
jsonTexture->getMaps()["WrapT"] =
getJSONWrapMode(texture->getWrap(osg::Texture::WRAP_T));
{
JSONObject* obj = createImageFromTexture<osg::Texture1D>(texture,
jsonTexture.get(), this);
if (obj) {
return obj;
}
}
{
JSONObject* obj = createImageFromTexture<osg::Texture2D>(texture,
jsonTexture.get(), this);
if (obj) {
return obj;
}
}
{
JSONObject* obj =
createImageFromTexture<osg::TextureRectangle>(texture, jsonTexture.get(), this);
if (obj) {
return obj;
}
}
return 0;
}
JSONObject* WriteVisitor::createJSONStateSet(osg::StateSet* stateset)
{
if (_maps.find(stateset) != _maps.end()) {
return _maps[stateset]->getShadowObject();
}
osg::ref_ptr<JSONObject> jsonStateSet = new JSONStateSet;
_maps[stateset] = jsonStateSet;
translateObject(jsonStateSet.get(), stateset);
if (stateset->getRenderingHint() == osg::StateSet::TRANSPARENT_BIN) {
jsonStateSet->getMaps()["RenderingHint"] = new
JSONValue<std::string>("TRANSPARENT_BIN");
}
bool blendEnabled = false;
if (stateset->getMode(GL_BLEND) == osg::StateAttribute::ON) {
blendEnabled = true;
}
osg::ref_ptr<JSONArray> textureAttributeList = new JSONArray;
int lastTextureIndex = -1;
for (int i = 0; i < 32; ++i) {
osg::Texture* texture =
dynamic_cast<osg::Texture*>(stateset->getTextureAttribute(i,osg::StateAttribute::TEXTURE));
JSONArray* textureUnit = new JSONArray;
JSONObject* jsonTexture = createJSONTexture(texture);
textureAttributeList->getArray().push_back(textureUnit);
if (jsonTexture) {
JSONObject* textureObject = new JSONObject;
textureObject->getMaps()["osg.Texture"] = jsonTexture;
textureUnit->getArray().push_back(textureObject);
lastTextureIndex = i;
}
}
if (lastTextureIndex > -1) {
textureAttributeList->getArray().resize(lastTextureIndex+1);
jsonStateSet->getMaps()["TextureAttributeList"] = textureAttributeList;
}
osg::ref_ptr<JSONArray> attributeList = new JSONArray;
osg::Material* material =
dynamic_cast<osg::Material*>(stateset->getAttribute(osg::StateAttribute::MATERIAL));
if (material) {
JSONObject* obj = new JSONObject;
obj->getMaps()["osg.Material"] = createJSONMaterial(material);
attributeList->getArray().push_back(obj);
}
osg::BlendFunc* blendFunc =
dynamic_cast<osg::BlendFunc*>(stateset->getAttribute(osg::StateAttribute::BLENDFUNC));
if (blendFunc) {
JSONObject* obj = new JSONObject;
obj->getMaps()["osg.BlendFunc"] = createJSONBlendFunc(blendFunc);
attributeList->getArray().push_back(obj);
} else if (blendEnabled == true) {
JSONObject* obj = new JSONObject;
osg::ref_ptr<osg::BlendFunc> defaultBlend = new osg::BlendFunc();
obj->getMaps()["osg.BlendFunc"] =
createJSONBlendFunc(defaultBlend.get());
attributeList->getArray().push_back(obj);
}
osg::ref_ptr<osg::CullFace> cullFace =
dynamic_cast<osg::CullFace*>(stateset->getAttribute(osg::StateAttribute::CULLFACE));
osg::StateAttribute::GLModeValue cullMode = stateset->getMode(GL_CULL_FACE);
if (cullFace || cullMode != osg::StateAttribute::INHERIT) {
JSONObject* obj = new JSONObject;
JSONObject* cf = 0;
if (cullMode == osg::StateAttribute::OFF) {
osg::ref_ptr<osg::CullFace> defaultCull = new osg::CullFace();
cf = createJSONCullFace(defaultCull.get());
cf->getMaps()["Mode"] = new JSONValue<std::string>("DISABLE");
obj->getMaps()["osg.CullFace"] = cf;
attributeList->getArray().push_back(obj);
} else {
if (!cullFace) {
cullFace = new osg::CullFace();
}
cf = createJSONCullFace(cullFace.get());
}
obj->getMaps()["osg.CullFace"] = cf;
attributeList->getArray().push_back(obj);
}
osg::BlendColor* blendColor =
dynamic_cast<osg::BlendColor*>(stateset->getAttribute(osg::StateAttribute::BLENDCOLOR));
if (blendColor) {
JSONObject* obj = new JSONObject;
obj->getMaps()["osg.BlendColor"] = createJSONBlendColor(blendColor);
attributeList->getArray().push_back(obj);
}
if (!attributeList->getArray().empty()) {
jsonStateSet->getMaps()["AttributeList"] = attributeList;
}
if (jsonStateSet->getMaps().empty())
return 0;
return jsonStateSet.release();
}
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