axmol/cocos/3d/CCBundle3D.cpp

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/****************************************************************************
Copyright (c) 2014 Chukong Technologies Inc.
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http://www.cocos2d-x.org
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Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
****************************************************************************/
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#include "3d/CCBundle3D.h"
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#include "3d/CCObjLoader.h"
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#include "base/ccMacros.h"
#include "platform/CCFileUtils.h"
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#include "renderer/CCGLProgram.h"
#include "3d/CCBundleReader.h"
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#include "base/CCData.h"
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#define BUNDLE_TYPE_SCENE 1
#define BUNDLE_TYPE_NODE 2
#define BUNDLE_TYPE_ANIMATIONS 3
#define BUNDLE_TYPE_ANIMATION 4
#define BUNDLE_TYPE_ANIMATION_CHANNEL 5
#define BUNDLE_TYPE_MODEL 10
#define BUNDLE_TYPE_MATERIAL 16
#define BUNDLE_TYPE_EFFECT 18
#define BUNDLE_TYPE_CAMERA 32
#define BUNDLE_TYPE_LIGHT 33
#define BUNDLE_TYPE_MESH 34
#define BUNDLE_TYPE_MESHPART 35
#define BUNDLE_TYPE_MESHSKIN 36
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static const char* VERSION = "version";
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static const char* ID = "id";
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static const char* DEFAULTPART = "body";
static const char* VERTEXSIZE = "vertexsize";
static const char* VERTEX = "vertex";
static const char* VERTICES = "vertices";
static const char* INDEXNUM = "indexnum";
static const char* INDICES = "indices";
static const char* SUBMESH = "submesh";
static const char* ATTRIBUTES = "attributes";
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static const char* ATTRIBUTESIZE = "size";
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static const char* TYPE = "type";
static const char* ATTRIBUTE = "attribute";
static const char* SKIN = "skin";
static const char* BINDSHAPE = "bindshape";
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static const char* MESH = "mesh";
static const char* MESHES = "meshes";
static const char* MESHPARTID = "meshpartid";
static const char* MATERIALID = "materialid";
static const char* NODE = "node";
static const char* NODES = "nodes";
static const char* CHILDREN = "children";
static const char* PARTS = "parts";
static const char* BONES = "bones";
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static const char* SKELETON = "skeleton";
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static const char* MATERIALS = "materials";
static const char* ANIMATIONS = "animations";
static const char* TRANSFORM = "transform";
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static const char* OLDTRANSFORM = "tansform";
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static const char* ANIMATION = "animation";
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static const char* MATERIAL = "material";
static const char* BASE = "base";
static const char* FILENAME = "filename";
static const char* TEXTURES = "textures";
static const char* LENGTH = "length";
static const char* BONEID = "boneId";
static const char* KEYFRAMES = "keyframes";
static const char* TRANSLATION = "translation";
static const char* ROTATION = "rotation";
static const char* SCALE = "scale";
static const char* KEYTIME = "keytime";
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static const char* AABBS = "aabb";
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NS_CC_BEGIN
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void getChildMap(std::map<int, std::vector<int> >& map, SkinData* skinData, const rapidjson::Value& val)
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{
if (!skinData)
return;
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// get transform matrix
Mat4 transform;
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const rapidjson::Value& parent_transform = val[OLDTRANSFORM];
for (rapidjson::SizeType j = 0, size = parent_transform.Size(); j < size; ++j)
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{
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transform.m[j] = parent_transform[j].GetDouble();
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}
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// set origin matrices
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std::string parent_name = val[ID].GetString();
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int parent_name_index = skinData->getSkinBoneNameIndex(parent_name);
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if (parent_name_index < 0)
{
skinData->addNodeBoneNames(parent_name);
skinData->nodeBoneOriginMatrices.push_back(transform);
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parent_name_index = skinData->getBoneNameIndex(parent_name);
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}
else if (parent_name_index < static_cast<int>(skinData->skinBoneNames.size()))
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{
skinData->skinBoneOriginMatrices[parent_name_index] = transform;
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}
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// set root bone index
if(skinData->rootBoneIndex < 0)
skinData->rootBoneIndex = parent_name_index;
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if (!val.HasMember(CHILDREN))
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return;
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const rapidjson::Value& children = val[CHILDREN];
for (rapidjson::SizeType i = 0, size = children.Size(); i < size; ++i)
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{
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// get child bone name
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const rapidjson::Value& child = children[i];
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std::string child_name = child[ID].GetString();
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int child_name_index = skinData->getSkinBoneNameIndex(child_name);
if (child_name_index < 0)
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{
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skinData->addNodeBoneNames(child_name);
child_name_index = skinData->getBoneNameIndex(child_name);
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}
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map[parent_name_index].push_back(child_name_index);
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getChildMap(map, skinData, child);
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}
}
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Bundle3D* Bundle3D::createBundle()
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{
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auto bundle = new (std::nothrow) Bundle3D();
return bundle;
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}
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void Bundle3D::destroyBundle(Bundle3D* bundle)
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{
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delete bundle;
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}
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void Bundle3D::clear()
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{
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if (_isBinary)
{
_binaryBuffer.clear();
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CC_SAFE_DELETE_ARRAY(_references);
}
else
{
_jsonBuffer.clear();
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}
}
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bool Bundle3D::load(const std::string& path)
{
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if (path.empty())
return false;
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if (_path == path)
return true;
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getModelRelativePath(path);
bool ret = false;
std::string ext = FileUtils::getInstance()->getFileExtension(path);
if (ext == ".c3t")
{
_isBinary = false;
ret = loadJson(path);
}
else if (ext == ".c3b")
{
_isBinary = true;
ret = loadBinary(path);
}
else
{
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CCLOG("warning: %s is invalid file formate", path.c_str());
}
ret?(_path = path):(_path = "");
return ret;
}
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bool Bundle3D::loadObj(MeshDatas& meshdatas, MaterialDatas& materialdatas, NodeDatas& nodedatas, const std::string& fullPath, const char* mtl_basepath)
{
meshdatas.resetData();
materialdatas.resetData();
nodedatas.resetData();
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std::string mtlPath = "";
if (mtl_basepath)
mtlPath = mtl_basepath;
else
mtlPath = fullPath.substr(0, fullPath.find_last_of("\\/") + 1);
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std::vector<tinyobj::shape_t> shapes;
std::vector<tinyobj::material_t> materials;
auto ret = tinyobj::LoadObj(shapes, materials, fullPath.c_str(), mtlPath.c_str());
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if (ret.empty())
{
//fill data
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//convert material
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int i = 0;
char str[20];
std::string dir = "";
auto last = fullPath.rfind("/");
if (last != std::string::npos)
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dir = fullPath.substr(0, last + 1);
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for (auto& material : materials) {
NMaterialData materialdata;
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NTextureData tex;
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tex.filename = material.diffuse_texname.empty() ? material.diffuse_texname : dir + material.diffuse_texname;
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tex.type = NTextureData::Usage::Diffuse;
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tex.wrapS = GL_CLAMP_TO_EDGE;
tex.wrapT = GL_CLAMP_TO_EDGE;
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sprintf(str, "%d", ++i);
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materialdata.textures.push_back(tex);
materialdata.id = str;
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material.name = str;
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materialdatas.materials.push_back(materialdata);
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}
//convert mesh
i = 0;
for (auto& shape : shapes) {
auto mesh = shape.mesh;
MeshData* meshdata = new (std::nothrow) MeshData();
MeshVertexAttrib attrib;
attrib.size = 3;
attrib.type = GL_FLOAT;
if (mesh.positions.size())
{
attrib.vertexAttrib = GLProgram::VERTEX_ATTRIB_POSITION;
attrib.attribSizeBytes = attrib.size * sizeof(float);
meshdata->attribs.push_back(attrib);
}
bool hasnormal = false, hastex = false;
if (mesh.normals.size())
{
hasnormal = true;
attrib.vertexAttrib = GLProgram::VERTEX_ATTRIB_NORMAL;
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attrib.attribSizeBytes = attrib.size * sizeof(float);
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meshdata->attribs.push_back(attrib);
}
if (mesh.texcoords.size())
{
hastex = true;
attrib.size = 2;
attrib.vertexAttrib = GLProgram::VERTEX_ATTRIB_TEX_COORD;
attrib.attribSizeBytes = attrib.size * sizeof(float);
meshdata->attribs.push_back(attrib);
}
auto vertexNum = mesh.positions.size() / 3;
for(unsigned int k = 0; k < vertexNum; ++k)
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{
meshdata->vertex.push_back(mesh.positions[k * 3]);
meshdata->vertex.push_back(mesh.positions[k * 3 + 1]);
meshdata->vertex.push_back(mesh.positions[k * 3 + 2]);
if (hasnormal)
{
meshdata->vertex.push_back(mesh.normals[k * 3]);
meshdata->vertex.push_back(mesh.normals[k * 3 + 1]);
meshdata->vertex.push_back(mesh.normals[k * 3 + 2]);
}
if (hastex)
{
meshdata->vertex.push_back(mesh.texcoords[k * 2]);
meshdata->vertex.push_back(mesh.texcoords[k * 2 + 1]);
}
}
//split into submesh according to material
std::map<int, std::vector<unsigned short> > subMeshMap;
for (size_t k = 0, size = mesh.material_ids.size(); k < size; ++k) {
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int id = mesh.material_ids[k];
size_t idx = k * 3;
subMeshMap[id].push_back(mesh.indices[idx]);
subMeshMap[id].push_back(mesh.indices[idx + 1]);
subMeshMap[id].push_back(mesh.indices[idx + 2]);
}
auto node = new (std::nothrow) NodeData();
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node->id = shape.name;
for (auto& submesh : subMeshMap) {
meshdata->subMeshIndices.push_back(submesh.second);
meshdata->subMeshAABB.push_back(calculateAABB(meshdata->vertex, meshdata->getPerVertexSize(), submesh.second));
sprintf(str, "%d", ++i);
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meshdata->subMeshIds.push_back(str);
auto modelnode = new (std::nothrow) ModelData();
modelnode->materialId = submesh.first == -1 ? "" : materials[submesh.first].name;
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modelnode->subMeshId = str;
node->modelNodeDatas.push_back(modelnode);
}
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nodedatas.nodes.push_back(node);
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meshdatas.meshDatas.push_back(meshdata);
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}
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return true;
}
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CCLOG("warning: load %s file error: %s", fullPath.c_str(), ret.c_str());
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return false;
}
bool Bundle3D::loadSkinData(const std::string& /*id*/, SkinData* skindata)
{
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skindata->resetData();
if (_isBinary)
{
return loadSkinDataBinary(skindata);
}
else
{
return loadSkinDataJson(skindata);
}
}
bool Bundle3D::loadAnimationData(const std::string& id, Animation3DData* animationdata)
{
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animationdata->resetData();
if (_isBinary)
{
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return loadAnimationDataBinary(id,animationdata);
}
else
{
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return loadAnimationDataJson(id,animationdata);
}
}
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//since 3.3, to support reskin
bool Bundle3D::loadMeshDatas(MeshDatas& meshdatas)
{
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meshdatas.resetData();
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if (_isBinary)
{
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if (_version == "0.1" || _version == "0.2")
{
return loadMeshDatasBinary_0_1(meshdatas);
}
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else
{
return loadMeshDatasBinary(meshdatas);
}
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}
else
{
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if (_version == "1.2" || _version == "0.2")
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{
return loadMeshDataJson_0_1(meshdatas);
}
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else
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{
return loadMeshDatasJson(meshdatas);
}
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}
return true;
}
bool Bundle3D::loadMeshDatasBinary(MeshDatas& meshdatas)
{
if (!seekToFirstType(BUNDLE_TYPE_MESH))
return false;
unsigned int meshSize = 0;
if (_binaryReader.read(&meshSize, 4, 1) != 1)
{
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CCLOG("warning: Failed to read meshdata: attribCount '%s'.", _path.c_str());
return false;
}
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MeshData* meshData = nullptr;
for(unsigned int i = 0; i < meshSize ; ++i)
{
unsigned int attribSize=0;
// read mesh data
if (_binaryReader.read(&attribSize, 4, 1) != 1 || attribSize < 1)
{
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CCLOG("warning: Failed to read meshdata: attribCount '%s'.", _path.c_str());
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goto FAILED;
}
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meshData = new (std::nothrow) MeshData();
meshData->attribCount = attribSize;
meshData->attribs.resize(meshData->attribCount);
for (ssize_t j = 0; j < meshData->attribCount; ++j)
{
std::string attribute="";
unsigned int vSize;
if (_binaryReader.read(&vSize, 4, 1) != 1)
{
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CCLOG("warning: Failed to read meshdata: usage or size '%s'.", _path.c_str());
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goto FAILED;
}
std::string type = _binaryReader.readString();
attribute=_binaryReader.readString();
meshData->attribs[j].size = vSize;
meshData->attribs[j].attribSizeBytes = meshData->attribs[j].size * 4;
meshData->attribs[j].type = parseGLType(type);
meshData->attribs[j].vertexAttrib = parseGLProgramAttribute(attribute);
}
unsigned int vertexSizeInFloat = 0;
// Read vertex data
if (_binaryReader.read(&vertexSizeInFloat, 4, 1) != 1 || vertexSizeInFloat == 0)
{
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CCLOG("warning: Failed to read meshdata: vertexSizeInFloat '%s'.", _path.c_str());
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goto FAILED;
}
meshData->vertex.resize(vertexSizeInFloat);
if (_binaryReader.read(&meshData->vertex[0], 4, vertexSizeInFloat) != vertexSizeInFloat)
{
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CCLOG("warning: Failed to read meshdata: vertex element '%s'.", _path.c_str());
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goto FAILED;
}
// Read index data
unsigned int meshPartCount = 1;
_binaryReader.read(&meshPartCount, 4, 1);
for (unsigned int k = 0; k < meshPartCount; ++k)
{
std::vector<unsigned short> indexArray;
std:: string meshPartid = _binaryReader.readString();
meshData->subMeshIds.push_back(meshPartid);
unsigned int nIndexCount;
if (_binaryReader.read(&nIndexCount, 4, 1) != 1)
{
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CCLOG("warning: Failed to read meshdata: nIndexCount '%s'.", _path.c_str());
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goto FAILED;
}
indexArray.resize(nIndexCount);
if (_binaryReader.read(&indexArray[0], 2, nIndexCount) != nIndexCount)
{
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CCLOG("warning: Failed to read meshdata: indices '%s'.", _path.c_str());
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goto FAILED;
}
meshData->subMeshIndices.push_back(indexArray);
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meshData->numIndex = (int)meshData->subMeshIndices.size();
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//meshData->subMeshAABB.push_back(calculateAABB(meshData->vertex, meshData->getPerVertexSize(), indexArray));
if (_version != "0.3" && _version != "0.4" && _version != "0.5")
{
//read mesh aabb
float aabb[6];
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if (_binaryReader.read(aabb, 4, 6) != 6)
{
CCLOG("warning: Failed to read meshdata: aabb '%s'.", _path.c_str());
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goto FAILED;
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}
meshData->subMeshAABB.push_back(AABB(Vec3(aabb[0], aabb[1], aabb[2]), Vec3(aabb[3], aabb[4], aabb[5])));
}
else
{
meshData->subMeshAABB.push_back(calculateAABB(meshData->vertex, meshData->getPerVertexSize(), indexArray));
}
}
meshdatas.meshDatas.push_back(meshData);
}
return true;
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FAILED:
{
CC_SAFE_DELETE(meshData);
for (auto& meshdata : meshdatas.meshDatas) {
delete meshdata;
}
meshdatas.meshDatas.clear();
return false;
}
}
bool Bundle3D::loadMeshDatasBinary_0_1(MeshDatas& meshdatas)
{
if (!seekToFirstType(BUNDLE_TYPE_MESH))
return false;
meshdatas.resetData();
MeshData* meshdata = new (std::nothrow) MeshData();
// read mesh data
unsigned int attribSize=0;
if (_binaryReader.read(&attribSize, 4, 1) != 1 || attribSize < 1)
{
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CCLOG("warning: Failed to read meshdata: attribCount '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
enum
{
VERTEX_ATTRIB_POSITION,
VERTEX_ATTRIB_COLOR,
VERTEX_ATTRIB_TEX_COORD,
VERTEX_ATTRIB_NORMAL,
VERTEX_ATTRIB_BLEND_WEIGHT,
VERTEX_ATTRIB_BLEND_INDEX,
VERTEX_ATTRIB_MAX,
// backward compatibility
VERTEX_ATTRIB_TEX_COORDS = VERTEX_ATTRIB_TEX_COORD,
};
for (unsigned int i = 0; i < attribSize; ++i)
{
unsigned int vUsage, vSize;
if (_binaryReader.read(&vUsage, 4, 1) != 1 || _binaryReader.read(&vSize, 4, 1) != 1)
{
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CCLOG("warning: Failed to read meshdata: usage or size '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
MeshVertexAttrib meshVertexAttribute;
meshVertexAttribute.size = vSize;
meshVertexAttribute.attribSizeBytes = vSize * 4;
meshVertexAttribute.type = GL_FLOAT;
if(vUsage == VERTEX_ATTRIB_NORMAL)
{
vUsage= GLProgram::VERTEX_ATTRIB_NORMAL;
}
else if(vUsage == VERTEX_ATTRIB_BLEND_WEIGHT)
{
vUsage= GLProgram::VERTEX_ATTRIB_BLEND_WEIGHT;
}
else if(vUsage == VERTEX_ATTRIB_BLEND_INDEX)
{
vUsage= GLProgram::VERTEX_ATTRIB_BLEND_INDEX;
}
else if(vUsage == VERTEX_ATTRIB_POSITION)
{
vUsage= GLProgram::VERTEX_ATTRIB_POSITION;
}
else if(vUsage == VERTEX_ATTRIB_TEX_COORD)
{
vUsage= GLProgram::VERTEX_ATTRIB_TEX_COORD;
}
meshVertexAttribute.vertexAttrib = vUsage;
meshdata->attribs.push_back(meshVertexAttribute);
}
// Read vertex data
if (_binaryReader.read(&meshdata->vertexSizeInFloat, 4, 1) != 1 || meshdata->vertexSizeInFloat == 0)
{
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CCLOG("warning: Failed to read meshdata: vertexSizeInFloat '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
meshdata->vertex.resize(meshdata->vertexSizeInFloat);
if (_binaryReader.read(&meshdata->vertex[0], 4, meshdata->vertexSizeInFloat) != meshdata->vertexSizeInFloat)
{
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CCLOG("warning: Failed to read meshdata: vertex element '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
// Read index data
unsigned int meshPartCount = 1;
for (unsigned int i = 0; i < meshPartCount; ++i)
{
unsigned int nIndexCount;
if (_binaryReader.read(&nIndexCount, 4, 1) != 1)
{
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CCLOG("warning: Failed to read meshdata: nIndexCount '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
std::vector<unsigned short> indices;
indices.resize(nIndexCount);
if (_binaryReader.read(&indices[0], 2, nIndexCount) != nIndexCount)
{
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CCLOG("warning: Failed to read meshdata: indices '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
meshdata->subMeshIndices.push_back(indices);
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meshdata->subMeshAABB.push_back(calculateAABB(meshdata->vertex, meshdata->getPerVertexSize(), indices));
}
meshdatas.meshDatas.push_back(meshdata);
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return true;
}
bool Bundle3D::loadMeshDatasBinary_0_2(MeshDatas& meshdatas)
{
if (!seekToFirstType(BUNDLE_TYPE_MESH))
return false;
meshdatas.resetData();
MeshData* meshdata = new (std::nothrow) MeshData();
// read mesh data
unsigned int attribSize=0;
if (_binaryReader.read(&attribSize, 4, 1) != 1 || attribSize < 1)
{
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CCLOG("warning: Failed to read meshdata: attribCount '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
enum
{
VERTEX_ATTRIB_POSITION,
VERTEX_ATTRIB_COLOR,
VERTEX_ATTRIB_TEX_COORD,
VERTEX_ATTRIB_NORMAL,
VERTEX_ATTRIB_BLEND_WEIGHT,
VERTEX_ATTRIB_BLEND_INDEX,
VERTEX_ATTRIB_MAX,
// backward compatibility
VERTEX_ATTRIB_TEX_COORDS = VERTEX_ATTRIB_TEX_COORD,
};
for (unsigned int i = 0; i < attribSize; ++i)
{
unsigned int vUsage, vSize;
if (_binaryReader.read(&vUsage, 4, 1) != 1 || _binaryReader.read(&vSize, 4, 1) != 1)
{
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CCLOG("warning: Failed to read meshdata: usage or size '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
MeshVertexAttrib meshVertexAttribute;
meshVertexAttribute.size = vSize;
meshVertexAttribute.attribSizeBytes = vSize * 4;
meshVertexAttribute.type = GL_FLOAT;
if(vUsage == VERTEX_ATTRIB_NORMAL)
{
vUsage= GLProgram::VERTEX_ATTRIB_NORMAL;
}
else if(vUsage == VERTEX_ATTRIB_BLEND_WEIGHT)
{
vUsage= GLProgram::VERTEX_ATTRIB_BLEND_WEIGHT;
}
else if(vUsage == VERTEX_ATTRIB_BLEND_INDEX)
{
vUsage= GLProgram::VERTEX_ATTRIB_BLEND_INDEX;
}
else if(vUsage == VERTEX_ATTRIB_POSITION)
{
vUsage= GLProgram::VERTEX_ATTRIB_POSITION;
}
else if(vUsage == VERTEX_ATTRIB_TEX_COORD)
{
vUsage= GLProgram::VERTEX_ATTRIB_TEX_COORD;
}
meshVertexAttribute.vertexAttrib = vUsage;
meshdata->attribs.push_back(meshVertexAttribute);
}
// Read vertex data
if (_binaryReader.read(&meshdata->vertexSizeInFloat, 4, 1) != 1 || meshdata->vertexSizeInFloat == 0)
{
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CCLOG("warning: Failed to read meshdata: vertexSizeInFloat '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
meshdata->vertex.resize(meshdata->vertexSizeInFloat);
if (_binaryReader.read(&meshdata->vertex[0], 4, meshdata->vertexSizeInFloat) != meshdata->vertexSizeInFloat)
{
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CCLOG("warning: Failed to read meshdata: vertex element '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
// read submesh
unsigned int submeshCount;
if (_binaryReader.read(&submeshCount, 4, 1) != 1)
{
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CCLOG("warning: Failed to read meshdata: submeshCount '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
for (unsigned int i = 0; i < submeshCount; ++i)
{
unsigned int nIndexCount;
if (_binaryReader.read(&nIndexCount, 4, 1) != 1)
{
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CCLOG("warning: Failed to read meshdata: nIndexCount '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
std::vector<unsigned short> indices;
indices.resize(nIndexCount);
if (_binaryReader.read(&indices[0], 2, nIndexCount) != nIndexCount)
{
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CCLOG("warning: Failed to read meshdata: indices '%s'.", _path.c_str());
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CC_SAFE_DELETE(meshdata);
return false;
}
meshdata->subMeshIndices.push_back(indices);
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meshdata->subMeshAABB.push_back(calculateAABB(meshdata->vertex, meshdata->getPerVertexSize(), indices));
}
meshdatas.meshDatas.push_back(meshdata);
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return true;
}
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bool Bundle3D::loadMeshDatasJson(MeshDatas& meshdatas)
{
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const rapidjson::Value& mesh_data_array = _jsonReader[MESHES];
for (rapidjson::SizeType index = 0, mesh_data_array_size = mesh_data_array.Size(); index < mesh_data_array_size; ++index)
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{
MeshData* meshData = new (std::nothrow) MeshData();
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const rapidjson::Value& mesh_data = mesh_data_array[index];
// mesh_vertex_attribute
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const rapidjson::Value& mesh_vertex_attribute = mesh_data[ATTRIBUTES];
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MeshVertexAttrib tempAttrib;
meshData->attribCount=mesh_vertex_attribute.Size();
meshData->attribs.resize(meshData->attribCount);
for (rapidjson::SizeType i = 0, mesh_vertex_attribute_size = mesh_vertex_attribute.Size(); i < mesh_vertex_attribute_size; ++i)
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{
const rapidjson::Value& mesh_vertex_attribute_val = mesh_vertex_attribute[i];
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int size = mesh_vertex_attribute_val[ATTRIBUTESIZE].GetInt();
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std::string type = mesh_vertex_attribute_val[TYPE].GetString();
std::string attribute = mesh_vertex_attribute_val[ATTRIBUTE].GetString();
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tempAttrib.size = size;
tempAttrib.attribSizeBytes = sizeof(float) * size;
tempAttrib.type = parseGLType(type);
tempAttrib.vertexAttrib = parseGLProgramAttribute(attribute);
meshData->attribs[i]=tempAttrib;
}
// mesh vertices
////////////////////////////////////////////////////////////////////////////////////////////////
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const rapidjson::Value& mesh_data_vertex_array = mesh_data[VERTICES];
auto mesh_data_vertex_array_size = mesh_data_vertex_array.Size();
meshData->vertexSizeInFloat = mesh_data_vertex_array_size;
for (rapidjson::SizeType i = 0; i < mesh_data_vertex_array_size; ++i)
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{
meshData->vertex.push_back(mesh_data_vertex_array[i].GetDouble());
}
// mesh part
////////////////////////////////////////////////////////////////////////////////////////////////
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const rapidjson::Value& mesh_part_array = mesh_data[PARTS];
for (rapidjson::SizeType i = 0, mesh_part_array_size = mesh_part_array.Size(); i < mesh_part_array_size; ++i)
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{
std::vector<unsigned short> indexArray;
const rapidjson::Value& mesh_part = mesh_part_array[i];
meshData->subMeshIds.push_back(mesh_part[ID].GetString());
// index_number
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const rapidjson::Value& indices_val_array = mesh_part[INDICES];
for (rapidjson::SizeType j = 0, indices_val_array_size = indices_val_array.Size(); j < indices_val_array_size; ++j)
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indexArray.push_back((unsigned short)indices_val_array[j].GetUint());
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meshData->subMeshIndices.push_back(indexArray);
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meshData->numIndex = (int)meshData->subMeshIndices.size();
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if(mesh_data.HasMember(AABBS))
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{
const rapidjson::Value& mesh_part_aabb = mesh_part[AABBS];
if (mesh_part.HasMember(AABBS) && mesh_part_aabb.Size() == 6)
{
Vec3 min(mesh_part_aabb[(rapidjson::SizeType)0].GetDouble(),
mesh_part_aabb[(rapidjson::SizeType)1].GetDouble(), mesh_part_aabb[(rapidjson::SizeType)2].GetDouble());
Vec3 max(mesh_part_aabb[(rapidjson::SizeType)3].GetDouble(),
mesh_part_aabb[(rapidjson::SizeType)4].GetDouble(), mesh_part_aabb[(rapidjson::SizeType)5].GetDouble());
meshData->subMeshAABB.push_back(AABB(min, max));
}
else
{
meshData->subMeshAABB.push_back(calculateAABB(meshData->vertex, meshData->getPerVertexSize(), indexArray));
}
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}
else
{
meshData->subMeshAABB.push_back(calculateAABB(meshData->vertex, meshData->getPerVertexSize(), indexArray));
}
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}
meshdatas.meshDatas.push_back(meshData);
}
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return true;
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}
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bool Bundle3D::loadNodes(NodeDatas& nodedatas)
{
if (_version == "0.1" || _version == "1.2" || _version == "0.2")
{
SkinData skinData;
if (!loadSkinData("", &skinData))
{
auto node= new (std::nothrow) NodeData();
auto modelnode = new (std::nothrow) ModelData();
modelnode->materialId = "";
modelnode->subMeshId = "";
node->modelNodeDatas.push_back(modelnode);
nodedatas.nodes.push_back(node);
return true;
}
auto nodeDatas = new (std::nothrow) NodeData*[skinData.skinBoneNames.size() + skinData.nodeBoneNames.size()];
int index = 0;
size_t i;
auto skinBoneSize = skinData.skinBoneNames.size();
auto nodeBoneSize = skinData.nodeBoneNames.size();
for (i = 0; i < skinBoneSize; ++i)
{
nodeDatas[index] = new (std::nothrow) NodeData();
nodeDatas[index]->id = skinData.skinBoneNames[i];
nodeDatas[index]->transform = skinData.skinBoneOriginMatrices[i];
++index;
}
for (i = 0; i < nodeBoneSize; ++i)
{
nodeDatas[index] = new (std::nothrow) NodeData();
nodeDatas[index]->id = skinData.nodeBoneNames[i];
nodeDatas[index]->transform = skinData.nodeBoneOriginMatrices[i];
++index;
}
for (const auto& it : skinData.boneChild)
{
const auto& children = it.second;
auto parent = nodeDatas[it.first];
for (const auto& child : children)
{
parent->children.push_back(nodeDatas[child]);
}
}
nodedatas.skeleton.push_back(nodeDatas[skinData.rootBoneIndex]);
auto node= new (std::nothrow) NodeData();
auto modelnode = new (std::nothrow) ModelData();
modelnode->materialId = "";
modelnode->subMeshId = "";
modelnode->bones = skinData.skinBoneNames;
modelnode->invBindPose = skinData.inverseBindPoseMatrices;
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node->modelNodeDatas.push_back(modelnode);
nodedatas.nodes.push_back(node);
delete[] nodeDatas;
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}
else
{
if (_isBinary)
{
loadNodesBinary(nodedatas);
}
else
{
loadNodesJson(nodedatas);
}
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}
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return true;
}
bool Bundle3D::loadMaterials(MaterialDatas& materialdatas)
{
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materialdatas.resetData();
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if (_isBinary)
{
if (_version == "0.1")
{
return loadMaterialsBinary_0_1(materialdatas);
}
else if (_version == "0.2")
{
return loadMaterialsBinary_0_2(materialdatas);
}
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else
{
return loadMaterialsBinary(materialdatas);
}
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}
else
{
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if (_version == "1.2")
{
return loadMaterialDataJson_0_1(materialdatas);
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}
else if (_version == "0.2")
{
return loadMaterialDataJson_0_2(materialdatas);
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}
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else
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{
return loadMaterialsJson(materialdatas);
}
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}
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return true;
}
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bool Bundle3D::loadMaterialsBinary(MaterialDatas& materialdatas)
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{
if (!seekToFirstType(BUNDLE_TYPE_MATERIAL))
return false;
unsigned int materialnum = 1;
_binaryReader.read(&materialnum, 4, 1);
for (unsigned int i = 0; i < materialnum; ++i)
{
NMaterialData materialData;
materialData.id = _binaryReader.readString();
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// skip: diffuse(3), ambient(3), emissive(3), opacity(1), specular(3), shininess(1)
float data[14];
_binaryReader.read(&data,sizeof(float), 14);
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unsigned int textureNum = 1;
_binaryReader.read(&textureNum, 4, 1);
for (unsigned int j = 0; j < textureNum; ++j)
{
NTextureData textureData;
textureData.id = _binaryReader.readString();
if (textureData.id.empty())
{
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CCLOG("warning: Failed to read Materialdata: texturePath is empty '%s'.", textureData.id.c_str());
return false;
}
std::string texturePath = _binaryReader.readString();
if (texturePath.empty())
{
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CCLOG("warning: Failed to read Materialdata: texturePath is empty '%s'.", _path.c_str());
return false;
}
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textureData.filename = texturePath.empty() ? texturePath : _modelPath + texturePath;
float uvdata[4];
_binaryReader.read(&uvdata,sizeof(float), 4);
textureData.type = parseGLTextureType(_binaryReader.readString());
textureData.wrapS= parseGLType(_binaryReader.readString());
textureData.wrapT= parseGLType(_binaryReader.readString());
materialData.textures.push_back(textureData);
}
materialdatas.materials.push_back(materialData);
}
return true;
}
bool Bundle3D::loadMaterialsBinary_0_1(MaterialDatas& materialdatas)
{
if (!seekToFirstType(BUNDLE_TYPE_MATERIAL))
return false;
NMaterialData materialData;
std::string texturePath = _binaryReader.readString();
if (texturePath.empty())
{
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CCLOG("warning: Failed to read Materialdata: texturePath is empty '%s'.", _path.c_str());
return false;
}
NTextureData textureData;
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textureData.filename = texturePath.empty() ? texturePath : _modelPath + texturePath;
textureData.type= NTextureData::Usage::Diffuse;
textureData.id="";
materialData.textures.push_back(textureData);
materialdatas.materials.push_back(materialData);
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return true;
}
bool Bundle3D::loadMaterialsBinary_0_2(MaterialDatas& materialdatas)
{
if (!seekToFirstType(BUNDLE_TYPE_MATERIAL))
return false;
unsigned int materialnum = 1;
_binaryReader.read(&materialnum, 4, 1);
for (unsigned int i = 0; i < materialnum; ++i)
{
NMaterialData materialData;
std::string texturePath = _binaryReader.readString();
if (texturePath.empty())
{
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CCLOG("warning: Failed to read Materialdata: texturePath is empty '%s'.", _path.c_str());
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return true;
}
NTextureData textureData;
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textureData.filename = texturePath.empty() ? texturePath : _modelPath + texturePath;
textureData.type= NTextureData::Usage::Diffuse;
textureData.id="";
materialData.textures.push_back(textureData);
materialdatas.materials.push_back(materialData);
}
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return true;
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}
bool loadMeshDataJson(MeshData* /*meshdata*/){
return true;
}
bool loadMeshDataJson_0_1(MeshData* /*meshdata*/)
{
return true;
}
bool loadMeshDataJson_0_2(MeshData* /*meshdata*/)
{
return true;
}
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bool Bundle3D::loadMaterialsJson(MaterialDatas& materialdatas)
{
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if (!_jsonReader.HasMember(MATERIALS))
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return false;
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const rapidjson::Value& material_array = _jsonReader[MATERIALS];
for (rapidjson::SizeType i = 0; i < material_array.Size(); ++i)
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{
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NMaterialData materialData;
const rapidjson::Value& material_val = material_array[i];
materialData.id = material_val[ID].GetString();
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if (material_val.HasMember(TEXTURES))
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{
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const rapidjson::Value& texture_array = material_val[TEXTURES];
for (rapidjson::SizeType j = 0; j < texture_array.Size(); ++j)
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{
NTextureData textureData;
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const rapidjson::Value& texture_val = texture_array[j];
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std::string filename = texture_val[FILENAME].GetString();
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textureData.filename = filename.empty() ? filename : _modelPath + filename;
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textureData.type = parseGLTextureType(texture_val["type"].GetString());
textureData.wrapS = parseGLType(texture_val["wrapModeU"].GetString());
textureData.wrapT = parseGLType(texture_val["wrapModeV"].GetString());
materialData.textures.push_back(textureData);
}
}
materialdatas.materials.push_back(materialData);
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}
return true;
}
bool Bundle3D::loadJson(const std::string& path)
{
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clear();
_jsonBuffer = FileUtils::getInstance()->getStringFromFile(path);
if (_jsonReader.ParseInsitu<0>((char*)_jsonBuffer.c_str()).HasParseError())
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{
clear();
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CCLOG("Parse json failed in Bundle3D::loadJson function");
return false;
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}
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const rapidjson::Value& mash_data_array = _jsonReader[VERSION];
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if (mash_data_array.IsArray()) // Compatible with the old version
_version = "1.2";
else
_version = mash_data_array.GetString();
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return true;
}
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bool Bundle3D::loadBinary(const std::string& path)
{
clear();
// get file data
_binaryBuffer.clear();
_binaryBuffer = FileUtils::getInstance()->getDataFromFile(path);
if (_binaryBuffer.isNull())
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{
clear();
CCLOG("warning: Failed to read file: %s", path.c_str());
return false;
}
// Initialise bundle reader
_binaryReader.init( (char*)_binaryBuffer.getBytes(), _binaryBuffer.getSize() );
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// Read identifier info
char identifier[] = { 'C', '3', 'B', '\0'};
char sig[4];
if (_binaryReader.read(sig, 1, 4) != 4 || memcmp(sig, identifier, 4) != 0)
{
clear();
CCLOG("warning: Invalid identifier: %s", path.c_str());
return false;
}
// Read version
unsigned char ver[2];
if (_binaryReader.read(ver, 1, 2)!= 2){
CCLOG("warning: Failed to read version:");
return false;
}
char version[20] = {0};
sprintf(version, "%d.%d", ver[0], ver[1]);
_version = version;
// Read ref table size
if (_binaryReader.read(&_referenceCount, 4, 1) != 1)
{
clear();
CCLOG("warning: Failed to read ref table size '%s'.", path.c_str());
return false;
}
// Read all refs
CC_SAFE_DELETE_ARRAY(_references);
_references = new (std::nothrow) Reference[_referenceCount];
for (unsigned int i = 0; i < _referenceCount; ++i)
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{
if ((_references[i].id = _binaryReader.readString()).empty() ||
_binaryReader.read(&_references[i].type, 4, 1) != 1 ||
_binaryReader.read(&_references[i].offset, 4, 1) != 1)
{
clear();
CCLOG("warning: Failed to read ref number %u for bundle '%s'.", i, path.c_str());
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CC_SAFE_DELETE_ARRAY(_references);
return false;
}
}
return true;
}
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bool Bundle3D::loadMeshDataJson_0_1(MeshDatas& meshdatas)
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{
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const rapidjson::Value& mesh_data_array = _jsonReader[MESH];
MeshData* meshdata= new (std::nothrow) MeshData();
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const rapidjson::Value& mesh_data_val = mesh_data_array[(rapidjson::SizeType)0];
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const rapidjson::Value& mesh_data_body_array = mesh_data_val[DEFAULTPART];
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const rapidjson::Value& mesh_data_body_array_0 = mesh_data_body_array[(rapidjson::SizeType)0];
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// mesh_vertex_attribute
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const rapidjson::Value& mesh_vertex_attribute = mesh_data_val[ATTRIBUTES];
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meshdata->attribCount = mesh_vertex_attribute.Size();
meshdata->attribs.resize(meshdata->attribCount);
for (rapidjson::SizeType i = 0; i < mesh_vertex_attribute.Size(); ++i)
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{
const rapidjson::Value& mesh_vertex_attribute_val = mesh_vertex_attribute[i];
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meshdata->attribs[i].size = mesh_vertex_attribute_val[ATTRIBUTESIZE].GetUint();
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meshdata->attribs[i].attribSizeBytes = meshdata->attribs[i].size * 4;
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meshdata->attribs[i].type = parseGLType(mesh_vertex_attribute_val[TYPE].GetString());
meshdata->attribs[i].vertexAttrib = parseGLProgramAttribute(mesh_vertex_attribute_val[ATTRIBUTE].GetString());
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}
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// vertices
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meshdata->vertexSizeInFloat = mesh_data_body_array_0[VERTEXSIZE].GetInt();
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meshdata->vertex.resize(meshdata->vertexSizeInFloat);
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const rapidjson::Value& mesh_data_body_vertices = mesh_data_body_array_0[VERTICES];
for (rapidjson::SizeType i = 0; i < mesh_data_body_vertices.Size(); ++i)
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meshdata->vertex[i] = mesh_data_body_vertices[i].GetDouble();
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// index_number
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unsigned int indexnum = mesh_data_body_array_0[INDEXNUM].GetUint();
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// indices
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std::vector<unsigned short> indices;
indices.resize(indexnum);
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const rapidjson::Value& indices_val_array = mesh_data_body_array_0[INDICES];
for (rapidjson::SizeType i = 0; i < indices_val_array.Size(); ++i)
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indices[i] = (unsigned short)indices_val_array[i].GetUint();
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meshdata->subMeshIndices.push_back(indices);
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meshdata->subMeshAABB.push_back(calculateAABB(meshdata->vertex, meshdata->getPerVertexSize(), indices));
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meshdatas.meshDatas.push_back(meshdata);
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return true;
}
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bool Bundle3D::loadMeshDataJson_0_2(MeshDatas& meshdatas)
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{
MeshData* meshdata= new (std::nothrow) MeshData();
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const rapidjson::Value& mesh_array = _jsonReader[MESH];
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const rapidjson::Value& mesh_array_0 = mesh_array[(rapidjson::SizeType)0];
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// mesh_vertex_attribute
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const rapidjson::Value& mesh_vertex_attribute = mesh_array_0[ATTRIBUTES];
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meshdata->attribCount = mesh_vertex_attribute.Size();
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meshdata->attribs.resize(meshdata->attribCount);
for (rapidjson::SizeType i = 0; i < mesh_vertex_attribute.Size(); ++i)
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{
const rapidjson::Value& mesh_vertex_attribute_val = mesh_vertex_attribute[i];
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meshdata->attribs[i].size = mesh_vertex_attribute_val[ATTRIBUTESIZE].GetUint();
meshdata->attribs[i].attribSizeBytes = meshdata->attribs[i].size * 4;
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meshdata->attribs[i].type = parseGLType(mesh_vertex_attribute_val[TYPE].GetString());
meshdata->attribs[i].vertexAttrib = parseGLProgramAttribute(mesh_vertex_attribute_val[ATTRIBUTE].GetString());
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}
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// vertices
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const rapidjson::Value& mesh_data_vertex = mesh_array_0[VERTEX];
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const rapidjson::Value& mesh_data_vertex_0 = mesh_data_vertex[(rapidjson::SizeType)0];
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meshdata->vertexSizeInFloat = mesh_data_vertex_0[VERTEXSIZE].GetInt();
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meshdata->vertex.resize(meshdata->vertexSizeInFloat);
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const rapidjson::Value& mesh_data_body_vertices = mesh_data_vertex_0[VERTICES];
for (rapidjson::SizeType i = 0; i < mesh_data_body_vertices.Size(); ++i)
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meshdata->vertex[i] = mesh_data_body_vertices[i].GetDouble();
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// submesh
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const rapidjson::Value& mesh_submesh_array = mesh_array_0[SUBMESH];
for (rapidjson::SizeType i = 0; i < mesh_submesh_array.Size(); ++i)
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{
const rapidjson::Value& mesh_submesh_val = mesh_submesh_array[i];
//std::string id = mesh_submesh_val[ID].GetString();
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// index_number
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unsigned int indexnum = mesh_submesh_val[INDEXNUM].GetUint();
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// indices
std::vector<unsigned short> indices;
indices.resize(indexnum);
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const rapidjson::Value& indices_val_array = mesh_submesh_val[INDICES];
for (rapidjson::SizeType j = 0; j < indices_val_array.Size(); ++j)
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indices[j] = (unsigned short)indices_val_array[j].GetUint();
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meshdata->subMeshIndices.push_back(indices);
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meshdata->subMeshAABB.push_back(calculateAABB(meshdata->vertex, meshdata->getPerVertexSize(), indices));
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}
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meshdatas.meshDatas.push_back(meshdata);
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return true;
}
bool Bundle3D::loadSkinDataJson(SkinData* skindata)
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{
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if (!_jsonReader.HasMember(SKIN )) return false;
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const rapidjson::Value& skin_data_array = _jsonReader[SKIN ];
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CCASSERT(skin_data_array.IsArray(), "skin data is not an array");
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const rapidjson::Value& skin_data_array_val_0 = skin_data_array[(rapidjson::SizeType)0];
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if (!skin_data_array_val_0.HasMember(BONES))
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return false;
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const rapidjson::Value& skin_data_bones = skin_data_array_val_0[BONES];
for (rapidjson::SizeType i = 0; i < skin_data_bones.Size(); ++i)
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{
const rapidjson::Value& skin_data_bone = skin_data_bones[i];
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std::string name = skin_data_bone[NODE].GetString();
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skindata->addSkinBoneNames(name);
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Mat4 mat_bind_pos;
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const rapidjson::Value& bind_pos = skin_data_bone[BINDSHAPE];
for (rapidjson::SizeType j = 0; j < bind_pos.Size(); ++j)
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{
mat_bind_pos.m[j] = bind_pos[j].GetDouble();
}
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skindata->inverseBindPoseMatrices.push_back(mat_bind_pos);
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}
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// set root bone information
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const rapidjson::Value& skin_data_1 = skin_data_array[1];
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// parent and child relationship map
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skindata->skinBoneOriginMatrices.resize(skindata->skinBoneNames.size());
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getChildMap(skindata->boneChild, skindata, skin_data_1);
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return true;
}
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bool Bundle3D::loadSkinDataBinary(SkinData* skindata)
{
if (!seekToFirstType(BUNDLE_TYPE_MESHSKIN))
return false;
std::string boneName = _binaryReader.readString();
// transform
float bindShape[16];
if (!_binaryReader.readMatrix(bindShape))
{
CCLOG("warning: Failed to read SkinData: bindShape matrix '%s'.", _path.c_str());
return false;
}
// bone count
unsigned int boneNum;
if (!_binaryReader.read(&boneNum))
{
CCLOG("warning: Failed to read SkinData: boneNum '%s'.", _path.c_str());
return false;
}
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// Fix bug: check if the bone number is 0.
if (boneNum == 0)
return false;
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// bone names and bind pos
float bindpos[16];
for (unsigned int i = 0; i < boneNum; ++i)
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{
std::string skinBoneName = _binaryReader.readString();
skindata->skinBoneNames.push_back(skinBoneName);
if (!_binaryReader.readMatrix(bindpos))
{
CCLOG("warning: Failed to load SkinData: bindpos '%s'.", _path.c_str());
return false;
}
skindata->inverseBindPoseMatrices.push_back(bindpos);
}
skindata->skinBoneOriginMatrices.resize(boneNum);
boneName = _binaryReader.readString();
// bind shape
_binaryReader.readMatrix(bindShape);
int rootIndex = skindata->getSkinBoneNameIndex(boneName);
if(rootIndex < 0)
{
skindata->addNodeBoneNames(boneName);
rootIndex = skindata->getBoneNameIndex(boneName);
skindata->nodeBoneOriginMatrices.push_back(bindShape);
}
else
{
skindata->skinBoneOriginMatrices[rootIndex] = bindShape;
}
// set root bone index
skindata->rootBoneIndex = rootIndex;
// read parent and child relationship map
float transform[16];
unsigned int linkNum;
_binaryReader.read(&linkNum);
for (unsigned int i = 0; i < linkNum; ++i)
{
std::string id = _binaryReader.readString();
int index = skindata->getSkinBoneNameIndex(id);
std::string parentid = _binaryReader.readString();
if (!_binaryReader.readMatrix(transform))
{
CCLOG("warning: Failed to load SkinData: transform '%s'.", _path.c_str());
return false;
}
if(index < 0)
{
skindata->addNodeBoneNames(id);
index = skindata->getBoneNameIndex(id);
skindata->nodeBoneOriginMatrices.push_back(transform);
}
else
{
skindata->skinBoneOriginMatrices[index] = transform;
}
int parentIndex = skindata->getSkinBoneNameIndex(parentid);
if(parentIndex < 0)
{
skindata->addNodeBoneNames(parentid);
parentIndex = skindata->getBoneNameIndex(parentid);
}
skindata->boneChild[parentIndex].push_back(index);
}
return true;
}
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bool Bundle3D::loadMaterialDataJson_0_1(MaterialDatas& materialdatas)
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{
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if (!_jsonReader.HasMember(MATERIAL))
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return false;
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NMaterialData materialData;
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const rapidjson::Value& material_data_array = _jsonReader[MATERIAL];
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if (material_data_array.Size() > 0)
{
const rapidjson::Value& material_data_array_0 = material_data_array[(rapidjson::SizeType)0];
if (material_data_array_0.HasMember(BASE))
{
const rapidjson::Value& material_data_base_array = material_data_array_0[BASE];
const rapidjson::Value& material_data_base_array_0 = material_data_base_array[(rapidjson::SizeType)0];
NTextureData textureData;
// set texture
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std::string filename = material_data_base_array_0[FILENAME].GetString();
textureData.filename = filename.empty() ? filename : _modelPath + filename;
textureData.type= NTextureData::Usage::Diffuse;
textureData.id="";
materialData.textures.push_back(textureData);
materialdatas.materials.push_back(materialData);
}
}
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return true;
}
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bool Bundle3D::loadMaterialDataJson_0_2(MaterialDatas& materialdatas)
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{
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if (!_jsonReader.HasMember(MATERIAL))
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return false;
NMaterialData materialData;
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const rapidjson::Value& material_array = _jsonReader[MATERIAL];
for (rapidjson::SizeType i = 0; i < material_array.Size(); ++i)
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{
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NTextureData textureData;
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const rapidjson::Value& material_val = material_array[i];
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// set texture
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std::string filename = material_val[TEXTURES].GetString();
textureData.filename = filename.empty() ? filename : _modelPath + filename;
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textureData.type= NTextureData::Usage::Diffuse;
textureData.id="";
materialData.textures.push_back(textureData);
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}
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materialdatas.materials.push_back(materialData);
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return true;
}
bool loadMaterialDataJson(MaterialData* /*materialdata*/)
{
return true;
}
bool loadMaterialDataJson_0_1(MaterialData* /*materialdata*/){
return true;
}
bool loadMaterialDataJson_0_2(MaterialData* /*materialdata*/){
return true;
}
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bool Bundle3D::loadAnimationDataJson(const std::string& id, Animation3DData* animationdata)
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{
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std::string anim = "";
if (_version == "1.2" || _version == "0.2")
anim = ANIMATION;
else
anim = ANIMATIONS;
if (!_jsonReader.HasMember(anim.c_str())) return false;
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int the_index = -1;
const rapidjson::Value& animation_data_array = _jsonReader[anim.c_str()];
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if (animation_data_array.Size()==0) return false;
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if(!id.empty())
{
for (rapidjson::SizeType i = 0; i < animation_data_array.Size(); ++i)
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{
if(animation_data_array[i][ID].GetString() == id)
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{
the_index = static_cast<int>(i);
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}
}
if(the_index < 0) return false;
}else{
the_index = 0;
}
const rapidjson::Value& animation_data_array_val_0 = animation_data_array[(rapidjson::SizeType)the_index];
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animationdata->_totalTime = animation_data_array_val_0[LENGTH].GetDouble();
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const rapidjson::Value& bones = animation_data_array_val_0[BONES];
for (rapidjson::SizeType i = 0; i < bones.Size(); ++i)
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{
const rapidjson::Value& bone = bones[i];
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std::string bone_name = bone[BONEID].GetString();
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if ( bone.HasMember(KEYFRAMES))
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{
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const rapidjson::Value& bone_keyframes = bone[KEYFRAMES];
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rapidjson::SizeType keyframe_size = bone_keyframes.Size();
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animationdata->_rotationKeys[bone_name].reserve(keyframe_size);
animationdata->_scaleKeys[bone_name].reserve(keyframe_size);
animationdata->_translationKeys[bone_name].reserve(keyframe_size);
for (rapidjson::SizeType j = 0; j < keyframe_size; ++j)
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{
const rapidjson::Value& bone_keyframe = bone_keyframes[j];
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if ( bone_keyframe.HasMember(TRANSLATION))
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{
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const rapidjson::Value& bone_keyframe_translation = bone_keyframe[TRANSLATION];
float keytime = bone_keyframe[KEYTIME].GetDouble();
Vec3 val(bone_keyframe_translation[(rapidjson::SizeType)0].GetDouble(), bone_keyframe_translation[1].GetDouble(), bone_keyframe_translation[2].GetDouble());
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animationdata->_translationKeys[bone_name].push_back(Animation3DData::Vec3Key(keytime,val));
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}
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if ( bone_keyframe.HasMember(ROTATION))
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{
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const rapidjson::Value& bone_keyframe_rotation = bone_keyframe[ROTATION];
float keytime = bone_keyframe[KEYTIME].GetDouble();
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Quaternion val = Quaternion(bone_keyframe_rotation[(rapidjson::SizeType)0].GetDouble(),bone_keyframe_rotation[1].GetDouble(),bone_keyframe_rotation[2].GetDouble(),bone_keyframe_rotation[3].GetDouble());
animationdata->_rotationKeys[bone_name].push_back(Animation3DData::QuatKey(keytime,val));
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}
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if ( bone_keyframe.HasMember(SCALE))
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{
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const rapidjson::Value& bone_keyframe_scale = bone_keyframe[SCALE];
float keytime = bone_keyframe[KEYTIME].GetDouble();
Vec3 val(bone_keyframe_scale[(rapidjson::SizeType)0].GetDouble(), bone_keyframe_scale[1].GetDouble(), bone_keyframe_scale[2].GetDouble());
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animationdata->_scaleKeys[bone_name].push_back(Animation3DData::Vec3Key(keytime,val));
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}
}
}
}
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return true;
}
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bool Bundle3D::loadAnimationDataBinary(const std::string& id, Animation3DData* animationdata)
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{
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if( _version == "0.1"|| _version == "0.2" || _version == "0.3"|| _version == "0.4")
{
if (!seekToFirstType(BUNDLE_TYPE_ANIMATIONS))
return false;
}
else
{
// if id is not a null string, we need to add a suffix of "animation" for seeding.
std::string id_ = id;
if(id != "") id_ = id + "animation";
if (!seekToFirstType(BUNDLE_TYPE_ANIMATIONS, id_))
return false;
}
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unsigned int animNum = 1;
if( _version == "0.3"|| _version == "0.4")
{
if (!_binaryReader.read(&animNum))
{
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CCLOG("warning: Failed to read AnimationData: animNum '%s'.", _path.c_str());
return false;
}
}
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bool has_found =false;
for(unsigned int k = 0; k < animNum ; ++k )
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{
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animationdata->resetData();
std::string animId = _binaryReader.readString();
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if (!_binaryReader.read(&animationdata->_totalTime))
{
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CCLOG("warning: Failed to read AnimationData: totalTime '%s'.", _path.c_str());
return false;
}
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unsigned int nodeAnimationNum;
if (!_binaryReader.read(&nodeAnimationNum))
{
CCLOG("warning: Failed to read AnimationData: animNum '%s'.", _path.c_str());
return false;
}
for (unsigned int i = 0; i < nodeAnimationNum; ++i)
{
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std::string boneName = _binaryReader.readString();
unsigned int keyframeNum;
if (!_binaryReader.read(&keyframeNum))
{
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CCLOG("warning: Failed to read AnimationData: keyframeNum '%s'.", _path.c_str());
return false;
}
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animationdata->_rotationKeys[boneName].reserve(keyframeNum);
animationdata->_scaleKeys[boneName].reserve(keyframeNum);
animationdata->_translationKeys[boneName].reserve(keyframeNum);
for (unsigned int j = 0; j < keyframeNum; ++j)
{
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float keytime;
if (!_binaryReader.read(&keytime))
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{
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CCLOG("warning: Failed to read AnimationData: keytime '%s'.", _path.c_str());
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return false;
}
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// transform flag
unsigned char transformFlag(0);
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if (_version != "0.1" && _version != "0.2" && _version != "0.3")
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{
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if (!_binaryReader.read(&transformFlag))
{
CCLOG("warning: Failed to read AnimationData: transformFlag '%s'.", _path.c_str());
return false;
}
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}
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// rotation
bool hasRotate = true;
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if (_version != "0.1" && _version != "0.2" && _version != "0.3")
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hasRotate = transformFlag & 0x01;
if (hasRotate)
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{
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Quaternion rotate;
if (_binaryReader.read(&rotate, 4, 4) != 4)
{
CCLOG("warning: Failed to read AnimationData: rotate '%s'.", _path.c_str());
return false;
}
animationdata->_rotationKeys[boneName].push_back(Animation3DData::QuatKey(keytime, rotate));
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}
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// scale
bool hasScale = true;
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if (_version != "0.1" && _version != "0.2" && _version != "0.3")
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hasScale = (transformFlag >> 1) & 0x01;
if (hasScale)
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{
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Vec3 scale;
if (_binaryReader.read(&scale, 4, 3) != 3)
{
CCLOG("warning: Failed to read AnimationData: scale '%s'.", _path.c_str());
return false;
}
animationdata->_scaleKeys[boneName].push_back(Animation3DData::Vec3Key(keytime, scale));
}
// translation
bool hasTranslation = true;
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if (_version != "0.1" && _version != "0.2" && _version != "0.3")
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hasTranslation = (transformFlag >> 2) & 0x01;
if (hasTranslation)
{
Vec3 position;
if (_binaryReader.read(&position, 4, 3) != 3)
{
CCLOG("warning: Failed to read AnimationData: position '%s'.", _path.c_str());
return false;
}
animationdata->_translationKeys[boneName].push_back(Animation3DData::Vec3Key(keytime, position));
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}
}
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}
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if( id == animId || id.empty())
{
has_found = true;
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break;
}
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}
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if(!has_found)
{
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animationdata->resetData();
return false;
}
return true;
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}
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bool Bundle3D::loadNodesJson(NodeDatas& nodedatas)
{
if (!_jsonReader.HasMember(NODES)) return false;
const rapidjson::Value& nodes = _jsonReader[NODES];
if(!nodes.IsArray()) return false;
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// traverse the nodes again
for (rapidjson::SizeType i = 0; i < nodes.Size(); ++i)
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{
const rapidjson::Value& jnode = nodes[i];
std::string id = jnode[ID].GetString();
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NodeData* nodedata = parseNodesRecursivelyJson(jnode, nodes.Size() == 1);
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bool isSkeleton = jnode[SKELETON].GetBool();
if (isSkeleton)
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nodedatas.skeleton.push_back(nodedata);
else
nodedatas.nodes.push_back(nodedata);
}
return true;
}
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NodeData* Bundle3D::parseNodesRecursivelyJson(const rapidjson::Value& jvalue, bool singleSprite)
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{
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NodeData* nodedata = new (std::nothrow) NodeData();
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// id
nodedata->id = jvalue[ID].GetString();
// transform
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Mat4 transform;
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const rapidjson::Value& jtransform = jvalue[TRANSFORM];
for (rapidjson::SizeType j = 0; j < jtransform.Size(); ++j)
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{
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transform.m[j] = jtransform[j].GetDouble();
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}
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nodedata->transform = transform;
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bool isSkin = false;
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// parts
if (jvalue.HasMember(PARTS))
{
const rapidjson::Value& parts = jvalue[PARTS];
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for (rapidjson::SizeType i = 0; i < parts.Size(); ++i)
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{
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auto modelnodedata = new (std::nothrow) ModelData();
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const rapidjson::Value& part = parts[i];
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modelnodedata->subMeshId = part[MESHPARTID].GetString();
modelnodedata->materialId = part[MATERIALID].GetString();
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if (modelnodedata->subMeshId == "" || modelnodedata->materialId == "")
2014-08-16 11:12:26 +08:00
{
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CCLOG("warning: Node %s part is missing meshPartId or materialId", nodedata->id.c_str());
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CC_SAFE_DELETE(modelnodedata);
CC_SAFE_DELETE(nodedata);
2014-08-16 11:12:26 +08:00
return nullptr;
}
if (part.HasMember(BONES))
{
const rapidjson::Value& bones = part[BONES];
for (rapidjson::SizeType j = 0; j < bones.Size(); ++j)
2014-08-16 11:12:26 +08:00
{
2014-08-16 19:51:59 +08:00
const rapidjson::Value& bone = bones[j];
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// node
if (!bone.HasMember(NODE))
{
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CCLOG("warning: Bone node ID missing");
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CC_SAFE_DELETE(modelnodedata);
CC_SAFE_DELETE(nodedata);
2014-08-16 11:12:26 +08:00
return nullptr;
}
modelnodedata->bones.push_back(bone[NODE].GetString());
Mat4 invbindpos;
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const rapidjson::Value& jinvbindpos = bone[TRANSFORM];
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for (rapidjson::SizeType k = 0; k < jinvbindpos.Size(); ++k)
2014-08-16 11:12:26 +08:00
{
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invbindpos.m[k] = jinvbindpos[k].GetDouble();
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}
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//invbindpos.inverse();
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modelnodedata->invBindPose.push_back(invbindpos);
}
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if (bones.Size() > 0)
isSkin = true;
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}
2014-08-20 11:40:04 +08:00
nodedata->modelNodeDatas.push_back(modelnodedata);
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}
}
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// set transform
if(_version == "0.1" || _version == "0.2" || _version == "0.3" || _version == "0.4" || _version == "0.5" || _version == "0.6")
{
if(isSkin || singleSprite)
{
nodedata->transform = Mat4::IDENTITY;
}
else
{
nodedata->transform = transform;
}
}
else
{
nodedata->transform = transform;
}
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if (jvalue.HasMember(CHILDREN))
{
const rapidjson::Value& children = jvalue[CHILDREN];
for (rapidjson::SizeType i = 0; i < children.Size(); ++i)
2014-08-16 11:12:26 +08:00
{
const rapidjson::Value& child = children[i];
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NodeData* tempdata = parseNodesRecursivelyJson(child, singleSprite);
2014-08-16 11:12:26 +08:00
nodedata->children.push_back(tempdata);
}
}
return nodedata;
}
2014-08-16 14:28:15 +08:00
bool Bundle3D::loadNodesBinary(NodeDatas& nodedatas)
{
if (!seekToFirstType(BUNDLE_TYPE_NODE))
return false;
unsigned int nodeSize = 0;
if (_binaryReader.read(&nodeSize, 4, 1) != 1)
{
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CCLOG("warning: Failed to read nodes");
2014-08-16 14:28:15 +08:00
return false;
}
// traverse the nodes again
for (rapidjson::SizeType i = 0; i < nodeSize; ++i)
2014-08-16 14:28:15 +08:00
{
bool skeleton = false;
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NodeData* nodedata = parseNodesRecursivelyBinary(skeleton, nodeSize == 1);
2014-08-16 14:28:15 +08:00
if (skeleton)
2014-08-16 14:28:15 +08:00
nodedatas.skeleton.push_back(nodedata);
else
nodedatas.nodes.push_back(nodedata);
}
return true;
}
2015-03-24 17:59:24 +08:00
NodeData* Bundle3D::parseNodesRecursivelyBinary(bool& skeleton, bool singleSprite)
2014-08-16 14:28:15 +08:00
{
// id
std::string id = _binaryReader.readString();
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// is skeleton
bool skeleton_;
if (_binaryReader.read(&skeleton_, 1, 1) != 1)
2014-08-16 14:28:15 +08:00
{
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CCLOG("warning: Failed to read is skeleton");
2014-08-18 17:52:27 +08:00
return nullptr;
2014-08-16 14:28:15 +08:00
}
2014-08-21 10:38:33 +08:00
if (skeleton_)
skeleton = true;
// transform
Mat4 transform;
if (!_binaryReader.readMatrix(transform.m))
2014-08-16 14:28:15 +08:00
{
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CCLOG("warning: Failed to read transform matrix");
2014-08-18 17:52:27 +08:00
return nullptr;
2014-08-16 14:28:15 +08:00
}
// parts
unsigned int partsSize = 0;
2014-08-16 14:28:15 +08:00
if (_binaryReader.read(&partsSize, 4, 1) != 1)
{
2014-08-29 10:43:26 +08:00
CCLOG("warning: Failed to read meshdata: attribCount '%s'.", _path.c_str());
2014-08-18 17:52:27 +08:00
return nullptr;
2014-08-16 14:28:15 +08:00
}
NodeData* nodedata = new (std::nothrow) NodeData();
2014-08-20 11:40:04 +08:00
nodedata->id = id;
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bool isSkin = false;
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if (partsSize > 0)
{
for (unsigned int i = 0; i < partsSize; ++i)
2014-08-16 14:28:15 +08:00
{
auto modelnodedata = new (std::nothrow) ModelData();
modelnodedata->subMeshId = _binaryReader.readString();
modelnodedata->materialId = _binaryReader.readString();
if (modelnodedata->subMeshId == "" || modelnodedata->materialId == "")
2014-08-16 14:28:15 +08:00
{
std::string err = "Node " + nodedata->id + " part is missing meshPartId or materialId";
2014-08-29 11:56:33 +08:00
CCLOG("Node %s part is missing meshPartId or materialId", nodedata->id.c_str());
2015-04-21 15:02:09 +08:00
CC_SAFE_DELETE(modelnodedata);
CC_SAFE_DELETE(nodedata);
return nullptr;
2014-08-16 14:28:15 +08:00
}
// read bone
unsigned int bonesSize = 0;
if (_binaryReader.read(&bonesSize, 4, 1) != 1)
2014-08-16 14:28:15 +08:00
{
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CCLOG("warning: Failed to read meshdata: attribCount '%s'.", _path.c_str());
2015-04-21 15:02:09 +08:00
CC_SAFE_DELETE(modelnodedata);
CC_SAFE_DELETE(nodedata);
2014-08-18 17:52:27 +08:00
return nullptr;
}
if (bonesSize > 0)
{
for (unsigned int j = 0; j < bonesSize; ++j)
2014-08-16 14:28:15 +08:00
{
std::string name = _binaryReader.readString();
modelnodedata->bones.push_back(name);
2014-08-16 14:28:15 +08:00
Mat4 invbindpos;
if (!_binaryReader.readMatrix(invbindpos.m))
{
2015-04-21 15:02:09 +08:00
CC_SAFE_DELETE(modelnodedata);
CC_SAFE_DELETE(nodedata);
2014-08-18 17:52:27 +08:00
return nullptr;
}
2014-08-16 14:28:15 +08:00
modelnodedata->invBindPose.push_back(invbindpos);
}
2015-03-24 17:59:24 +08:00
isSkin = true;
}
unsigned int uvMapping = 0;
if (_binaryReader.read(&uvMapping, 4, 1) != 1)
{
2014-08-29 11:56:33 +08:00
CCLOG("warning: Failed to read nodedata: uvMapping '%s'.", _path.c_str());
2015-04-21 15:02:09 +08:00
CC_SAFE_DELETE(modelnodedata);
CC_SAFE_DELETE(nodedata);
2014-08-18 17:52:27 +08:00
return nullptr;
}
for(unsigned int j = 0; j < uvMapping; ++j)
{
unsigned int textureIndexSize=0;
if (_binaryReader.read(&textureIndexSize, 4, 1) != 1)
{
2014-08-29 11:56:33 +08:00
CCLOG("warning: Failed to read meshdata: attribCount '%s'.", _path.c_str());
2015-04-21 15:02:09 +08:00
CC_SAFE_DELETE(modelnodedata);
CC_SAFE_DELETE(nodedata);
2014-08-18 17:52:27 +08:00
return nullptr;
}
for(unsigned int k = 0; k < textureIndexSize; ++k)
{
unsigned int index=0;
if (_binaryReader.read(&index, 4, 1) != 1)
2014-08-16 14:28:15 +08:00
{
2015-04-21 15:02:09 +08:00
CC_SAFE_DELETE(modelnodedata);
CC_SAFE_DELETE(nodedata);
2014-08-18 17:52:27 +08:00
return nullptr;
2014-08-16 14:28:15 +08:00
}
}
}
2014-08-20 11:40:04 +08:00
nodedata->modelNodeDatas.push_back(modelnodedata);
2014-08-16 14:28:15 +08:00
}
}
2015-03-24 17:59:24 +08:00
// set transform
if(_version == "0.1" || _version == "0.2" || _version == "0.3" || _version == "0.4" || _version == "0.5" || _version == "0.6")
{
if(isSkin || singleSprite)
{
nodedata->transform = Mat4::IDENTITY;
}
else
{
nodedata->transform = transform;
}
}
else
{
nodedata->transform = transform;
}
2014-08-16 14:28:15 +08:00
unsigned int childrenSize = 0;
if (_binaryReader.read(&childrenSize, 4, 1) != 1)
{
2014-08-29 11:56:33 +08:00
CCLOG("warning: Failed to read meshdata: attribCount '%s'.", _path.c_str());
2015-04-21 15:02:09 +08:00
CC_SAFE_DELETE(nodedata);
2014-08-18 17:52:27 +08:00
return nullptr;
2014-08-16 14:28:15 +08:00
}
if (childrenSize > 0)
{
for (unsigned int i = 0; i < childrenSize; ++i)
2014-08-16 14:28:15 +08:00
{
2015-03-24 17:59:24 +08:00
NodeData* tempdata = parseNodesRecursivelyBinary(skeleton, singleSprite);
nodedata->children.push_back(tempdata);
2014-08-16 14:28:15 +08:00
}
}
return nodedata;
2014-08-16 14:28:15 +08:00
}
GLenum Bundle3D::parseGLType(const std::string& str)
2014-06-12 10:01:54 +08:00
{
2014-07-07 17:22:46 +08:00
if (str == "GL_BYTE")
2014-06-12 10:01:54 +08:00
{
return GL_BYTE;
}
2014-07-07 17:22:46 +08:00
else if(str == "GL_UNSIGNED_BYTE")
{
return GL_UNSIGNED_BYTE;
}
2014-07-07 17:22:46 +08:00
else if(str == "GL_SHORT")
{
return GL_SHORT;
}
2014-07-07 17:22:46 +08:00
else if(str == "GL_UNSIGNED_SHORT")
{
return GL_UNSIGNED_SHORT;
}
2014-07-07 17:22:46 +08:00
else if(str == "GL_INT")
{
return GL_INT;
}
2014-07-07 17:22:46 +08:00
else if (str == "GL_UNSIGNED_INT")
{
return GL_UNSIGNED_INT;
2014-06-12 10:01:54 +08:00
}
else if (str == "GL_FLOAT")
{
return GL_FLOAT;
}
2014-08-16 15:40:00 +08:00
else if (str == "REPEAT")
{
return GL_REPEAT;
}
else if (str == "CLAMP")
{
return GL_CLAMP_TO_EDGE;
}
2014-06-12 10:01:54 +08:00
else
{
2014-08-29 10:43:26 +08:00
CCASSERT(false, "Invalid GL type");
return 0;
2014-06-12 10:01:54 +08:00
}
}
2014-08-16 10:41:42 +08:00
NTextureData::Usage Bundle3D::parseGLTextureType(const std::string& str)
{
if (str == "AMBIENT")
{
return NTextureData::Usage::Ambient;
}
else if(str == "BUMP")
{
return NTextureData::Usage::Bump;
}
else if(str == "DIFFUSE")
{
return NTextureData::Usage::Diffuse;
}
else if(str == "EMISSIVE")
{
return NTextureData::Usage::Emissive;
}
else if(str == "NONE")
{
return NTextureData::Usage::None;
}
else if (str == "NORMAL")
{
return NTextureData::Usage::Normal;
2014-08-16 10:41:42 +08:00
}
else if (str == "REFLECTION")
{
return NTextureData::Usage::Reflection;
}
else if (str == "SHININESS")
{
return NTextureData::Usage::Shininess;
2014-08-16 10:41:42 +08:00
}
else if (str == "SPECULAR")
{
return NTextureData::Usage::Specular;
}
else if (str == "TRANSPARENCY")
{
return NTextureData::Usage::Transparency;
2014-08-16 10:41:42 +08:00
}
else
{
2014-08-21 13:30:51 +08:00
CCASSERT(false, "Wrong Texture type");
2014-08-16 10:41:42 +08:00
return NTextureData::Usage::Unknown;
}
}
2014-06-12 10:01:54 +08:00
unsigned int Bundle3D::parseGLProgramAttribute(const std::string& str)
{
if (str == "VERTEX_ATTRIB_POSITION")
{
return GLProgram::VERTEX_ATTRIB_POSITION;
}
else if (str == "VERTEX_ATTRIB_COLOR")
{
return GLProgram::VERTEX_ATTRIB_COLOR;
}
else if (str == "VERTEX_ATTRIB_TEX_COORD")
{
return GLProgram::VERTEX_ATTRIB_TEX_COORD;
}
2014-08-18 20:22:18 +08:00
else if (str == "VERTEX_ATTRIB_TEX_COORD1")
{
return GLProgram::VERTEX_ATTRIB_TEX_COORD1;
}
2014-08-21 18:14:24 +08:00
else if (str == "VERTEX_ATTRIB_TEX_COORD2")
{
return GLProgram::VERTEX_ATTRIB_TEX_COORD2;
}
else if (str == "VERTEX_ATTRIB_TEX_COORD3")
{
return GLProgram::VERTEX_ATTRIB_TEX_COORD3;
}
//comment out them
// else if (str == "VERTEX_ATTRIB_TEX_COORD4")
// {
// return GLProgram::VERTEX_ATTRIB_TEX_COORD4;
// }
// else if (str == "VERTEX_ATTRIB_TEX_COORD5")
// {
// return GLProgram::VERTEX_ATTRIB_TEX_COORD5;
// }
// else if (str == "VERTEX_ATTRIB_TEX_COORD6")
// {
// return GLProgram::VERTEX_ATTRIB_TEX_COORD6;
// }
// else if (str == "VERTEX_ATTRIB_TEX_COORD7")
// {
// return GLProgram::VERTEX_ATTRIB_TEX_COORD7;
// }
2014-06-12 10:01:54 +08:00
else if (str == "VERTEX_ATTRIB_NORMAL")
{
return GLProgram::VERTEX_ATTRIB_NORMAL;
}
else if (str == "VERTEX_ATTRIB_BLEND_WEIGHT")
{
return GLProgram::VERTEX_ATTRIB_BLEND_WEIGHT;
}
else if (str == "VERTEX_ATTRIB_BLEND_INDEX")
{
return GLProgram::VERTEX_ATTRIB_BLEND_INDEX;
}
2015-11-25 10:45:03 +08:00
else if (str == "VERTEX_ATTRIB_TANGENT")
{
return GLProgram::VERTEX_ATTRIB_TANGENT;
}
else if (str == "VERTEX_ATTRIB_BINORMAL")
{
return GLProgram::VERTEX_ATTRIB_BINORMAL;
}
2014-06-12 10:01:54 +08:00
else
{
2014-08-21 13:30:51 +08:00
CCASSERT(false, "Wrong Attribute type");
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return -1;
}
}
void Bundle3D::getModelRelativePath(const std::string& path)
2014-06-16 19:08:43 +08:00
{
2014-06-30 17:10:07 +08:00
ssize_t index = path.find_last_of('/');
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std::string fullModelPath;
2014-08-16 11:12:26 +08:00
_modelPath = path.substr(0, index + 1);
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}
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Reference* Bundle3D::seekToFirstType(unsigned int type, const std::string& id)
2014-06-19 15:43:02 +08:00
{
// for each Reference
for (unsigned int i = 0; i < _referenceCount; ++i)
{
Reference* ref = &_references[i];
if (ref->type == type)
{
2014-11-18 16:10:33 +08:00
// if id is not a null string, we also need to check the Reference's id.
if (id != "" && id != ref->id)
{
continue;
}
2014-06-19 15:43:02 +08:00
// Found a match
2014-06-25 09:13:24 +08:00
if (_binaryReader.seek(ref->offset, SEEK_SET) == false)
2014-06-19 15:43:02 +08:00
{
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CCLOG("warning: Failed to seek to object '%s' in bundle '%s'.", ref->id.c_str(), _path.c_str());
2014-06-20 22:38:09 +08:00
return nullptr;
2014-06-19 15:43:02 +08:00
}
return ref;
}
}
2014-06-20 22:38:09 +08:00
return nullptr;
2014-06-19 15:43:02 +08:00
}
2015-05-14 10:30:20 +08:00
std::vector<Vec3> Bundle3D::getTrianglesList(const std::string& path)
{
std::vector<Vec3> trianglesList;
2015-05-29 16:37:37 +08:00
if (path.length() <= 4)
return trianglesList;
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auto bundle = Bundle3D::createBundle();
std::string ext = FileUtils::getInstance()->getFileExtension(path);
2015-05-29 16:37:37 +08:00
MeshDatas meshs;
if (ext == ".obj")
2015-05-14 10:30:20 +08:00
{
2015-05-29 16:37:37 +08:00
MaterialDatas materials;
NodeDatas nodes;
if (!Bundle3D::loadObj(meshs, materials, nodes, path))
{
Bundle3D::destroyBundle(bundle);
return trianglesList;
}
2015-05-14 10:30:20 +08:00
}
2015-05-29 16:37:37 +08:00
else
{
if (!bundle->load(path))
{
Bundle3D::destroyBundle(bundle);
return trianglesList;
}
bundle->loadMeshDatas(meshs);
}
2015-05-14 10:30:20 +08:00
Bundle3D::destroyBundle(bundle);
for (auto iter : meshs.meshDatas){
int preVertexSize = iter->getPerVertexSize() / sizeof(float);
for (auto indexArray : iter->subMeshIndices){
for (auto i : indexArray){
trianglesList.push_back(Vec3(iter->vertex[i * preVertexSize], iter->vertex[i * preVertexSize + 1], iter->vertex[i * preVertexSize + 2]));
}
}
}
2015-05-29 16:37:37 +08:00
2015-05-14 10:30:20 +08:00
return trianglesList;
}
2014-06-05 16:36:01 +08:00
Bundle3D::Bundle3D()
2015-04-21 15:02:09 +08:00
: _modelPath(""),
_path(""),
_version(""),
_referenceCount(0),
_references(nullptr),
_isBinary(false)
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{
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}
Bundle3D::~Bundle3D()
{
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clear();
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}
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cocos2d::AABB Bundle3D::calculateAABB( const std::vector<float>& vertex, int stride, const std::vector<unsigned short>& index )
{
AABB aabb;
stride /= 4;
for (const auto& it : index)
{
Vec3 point(vertex[it * stride], vertex[it * stride + 1], vertex[it * stride + 2]);
aabb.updateMinMax(&point, 1);
}
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return aabb;
}
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NS_CC_END