Esempio n. 1
0
/** sample ParaEngine mesh xml file
<mesh version=1 type=0>
	<boundingbox minx=0 miny=0 minz=0 maxx=1 maxy=1 maxz=1/>
	<shader index=3/>
	<submesh loddist=10 filename="LOD_10.x"/>
	<submesh loddist=50 filename="LOD_50.x"/>
</mesh>
*/
bool ParaEngine::CParaMeshXMLFile::LoadFromBuffer(const char* pData, int nSize)
{
#ifdef PARAENGINE_MOBILE
    namespace TXML = tinyxml2;
    try
    {
        TXML::XMLDocument doc(true, TXML::COLLAPSE_WHITESPACE);
        doc.Parse(pData, nSize);
        TXML::XMLElement* pRoot = doc.RootElement();
        if (pRoot)
        {
            pRoot->QueryIntAttribute("version", &m_nVersion);
            if (m_nVersion < SUPPORTED_MESH_FILE_VERSION)
            {
                OUTPUT_LOG("can not load para mesh xml file. because of a lower file version.\n");
            }
            int nType = 0;
            pRoot->QueryIntAttribute("type", &nType);
            m_nType = (ParaMeshXMLType)nType;

            for (TXML::XMLNode* pChild = pRoot->FirstChild(); pChild != 0; pChild = pChild->NextSibling())
            {
                TXML::XMLElement* pElement = pChild->ToElement();
                if (pElement)
                {
                    std::string tagName = pElement->Name();
                    if (tagName == "boundingbox")
                    {
                        pElement->QueryFloatAttribute("minx", &m_vMinPos.x);
                        pElement->QueryFloatAttribute("miny", &m_vMinPos.y);
                        pElement->QueryFloatAttribute("minz", &m_vMinPos.z);
                        pElement->QueryFloatAttribute("maxx", &m_vMaxPos.x);
                        pElement->QueryFloatAttribute("maxy", &m_vMaxPos.y);
                        pElement->QueryFloatAttribute("maxz", &m_vMaxPos.z);
                    }
                    else if (tagName == "shader")
                    {
                        pElement->QueryIntAttribute("index", &m_nPrimaryShader);
                        // TODO: for shader parameters
                        for (TXML::XMLNode* pSubChild = pElement->FirstChild(); pSubChild != 0; pSubChild = pSubChild->NextSibling())
                        {
                            TXML::XMLElement* pParamElement = pSubChild->ToElement();
                            if (pParamElement)
                            {
                                std::string tagName = pParamElement->Name();
                                if (tagName == "params")
                                {
                                    CParameter p;
                                    // param name
                                    p.SetName(pParamElement->Attribute("name", ""));
                                    p.SetTypeByString(pParamElement->Attribute("type", ""));
                                    p.SetValueByString(pParamElement->GetText());
                                    m_paramBlock.AddParameter(p);
                                }
                            }
                        }
                    }
                    else if (tagName == "submesh")
                    {
                        CSubMesh meshInfo;
                        pElement->QueryFloatAttribute("loddist", &meshInfo.m_fToCameraDist);
                        std::string filepath = pElement->Attribute("filename");
                        // check if it is relative path or absolute path
                        if (filepath.find('/') != string::npos || filepath.find('\\') != string::npos)
                            meshInfo.m_sFileName = filepath;
                        else
                            meshInfo.m_sFileName = m_sParentDirectory + filepath;
                        m_SubMeshes.push_back(meshInfo);
                    }
                }
            }
        }
    }
    catch (...)
    {
        OUTPUT_LOG("error parsing xml file %s**.xml \n", m_sParentDirectory.c_str());
        return false;
    }
    return m_SubMeshes.size() > 0;
#else
    TiXmlDocument doc;
    try
    {
        doc.Parse(pData, 0, TIXML_DEFAULT_ENCODING);
        TiXmlElement* pRoot =  doc.RootElement();
        {
            // get mesh file version
            TinyXPath::xpath_processor xpathProc(pRoot, "/mesh/@version");
            TinyXPath::expression_result res = xpathProc.er_compute_xpath();
            TinyXPath::node_set* pNodeSet = res.nsp_get_node_set();
            if(pNodeSet!=0 && pNodeSet->u_get_nb_node_in_set()>0)
            {
                const TiXmlAttribute* att = pNodeSet->XAp_get_attribute_in_set(0);
                m_nVersion = att->IntValue();
            }
        }
        if(m_nVersion < SUPPORTED_MESH_FILE_VERSION)
        {
            OUTPUT_LOG("can not load para mesh xml file. because of a lower file version.\n");
        }

        {
            // get mesh type
            TinyXPath::xpath_processor xpathProc(pRoot, "/mesh/@type");
            TinyXPath::expression_result res = xpathProc.er_compute_xpath();
            TinyXPath::node_set* pNodeSet = res.nsp_get_node_set();
            if(pNodeSet!=0 && pNodeSet->u_get_nb_node_in_set()>0)
            {
                const TiXmlAttribute* att = pNodeSet->XAp_get_attribute_in_set(0);
                m_nType = (ParaMeshXMLType)att->IntValue();
            }
        }

        {
            // get mesh bounding box
            TinyXPath::xpath_processor xpathProc(pRoot, "/mesh/boundingbox");
            TinyXPath::expression_result res = xpathProc.er_compute_xpath();
            TinyXPath::node_set* pNodeSet = res.nsp_get_node_set();
            if(pNodeSet!=0 && pNodeSet->u_get_nb_node_in_set()>0)
            {
                const TiXmlElement* pElem = pNodeSet->XNp_get_node_in_set(0)->ToElement();
                // parse attributes
                const TiXmlAttribute* pAttr = pElem->FirstAttribute();
                if (pAttr) {
                    m_bHasBoundingBox = true;
                    for (; pAttr; pAttr = pAttr->Next())
                    {
                        string sName = pAttr->Name();
                        if(sName == "minx")
                        {
                            m_vMinPos.x = (float)(pAttr->DoubleValue());
                        }
                        else if(sName == "miny")
                        {
                            m_vMinPos.y = (float)(pAttr->DoubleValue());
                        }
                        else if(sName == "minz")
                        {
                            m_vMinPos.z = (float)(pAttr->DoubleValue());
                        }
                        else if(sName == "maxx")
                        {
                            m_vMaxPos.x = (float)(pAttr->DoubleValue());
                        }
                        else if(sName == "maxy")
                        {
                            m_vMaxPos.y = (float)(pAttr->DoubleValue());
                        }
                        else if(sName == "maxz")
                        {
                            m_vMaxPos.z = (float)(pAttr->DoubleValue());
                        }
                    }
                }
            }
        }

        {
            // get shader index.
            TinyXPath::xpath_processor xpathProc(pRoot, "/mesh/shader/@index");
            TinyXPath::expression_result res = xpathProc.er_compute_xpath();
            TinyXPath::node_set* pNodeSet = res.nsp_get_node_set();
            if(pNodeSet!=0 && pNodeSet->u_get_nb_node_in_set()>0)
            {
                const TiXmlAttribute* att = pNodeSet->XAp_get_attribute_in_set(0);
                m_nPrimaryShader = att->IntValue();
            }
        }
        {
            // get shader parameters.
            TinyXPath::xpath_processor xpathProc(pRoot, "/mesh/shader/param");
            TinyXPath::expression_result res = xpathProc.er_compute_xpath();
            TinyXPath::node_set* pNodeSet = res.nsp_get_node_set();
            if(pNodeSet!=0 && pNodeSet->u_get_nb_node_in_set()>0)
            {
                int nCount = pNodeSet->u_get_nb_node_in_set();

                for(int i=0; i<nCount; ++i)
                {
                    // for each parameter
                    const TiXmlNode* node = pNodeSet->XNp_get_node_in_set(i);

                    CParameter p;
                    {
                        // param name
                        TinyXPath::xpath_processor xpathProc1(node->ToElement(), "@name");
                        TinyXPath::expression_result res1 = xpathProc1.er_compute_xpath();
                        TinyXPath::node_set* pNodeSet1 = res1.nsp_get_node_set();
                        if(pNodeSet1!=0 && pNodeSet1->u_get_nb_node_in_set()>0)
                        {
                            const TiXmlAttribute* att = pNodeSet1->XAp_get_attribute_in_set(0);
                            p.SetName(att->Value());
                        }
                    }

                    {
                        // get type
                        TinyXPath::xpath_processor xpathProc1(node->ToElement(), "@type");
                        TinyXPath::expression_result res1 = xpathProc1.er_compute_xpath();
                        TinyXPath::node_set* pNodeSet1 = res1.nsp_get_node_set();
                        if(pNodeSet1!=0 && pNodeSet1->u_get_nb_node_in_set()>0)
                        {
                            const TiXmlAttribute* att = pNodeSet1->XAp_get_attribute_in_set(0);
                            p.SetTypeByString(att->Value());
                        }
                    }
                    const TiXmlElement * pParamElement =  node->ToElement();
                    if(pParamElement)
                    {
                        // get text value
                        p.SetValueByString(pParamElement->GetText());
                        m_paramBlock.AddParameter(p);
                    }
                }
            }
        }
        {
            // get mesh info.
            TinyXPath::xpath_processor xpathProc(pRoot, "/mesh/submesh");
            TinyXPath::expression_result res = xpathProc.er_compute_xpath();
            TinyXPath::node_set* pNodeSet = res.nsp_get_node_set();
            if(pNodeSet!=0 && pNodeSet->u_get_nb_node_in_set()>0)
            {
                int nCount = pNodeSet->u_get_nb_node_in_set();
                m_SubMeshes.resize(nCount);

                for(int i=0; i<nCount; ++i)
                {
                    // for each sub meshes
                    const TiXmlNode* node = pNodeSet->XNp_get_node_in_set(i);

                    CSubMesh& meshInfo = m_SubMeshes[i];

                    {
                        // LOD to camera distance
                        TinyXPath::xpath_processor xpathProc1(node->ToElement(), "@loddist");
                        TinyXPath::expression_result res1 = xpathProc1.er_compute_xpath();
                        TinyXPath::node_set* pNodeSet1 = res1.nsp_get_node_set();
                        if(pNodeSet1!=0 && pNodeSet1->u_get_nb_node_in_set()>0)
                        {
                            const TiXmlAttribute* att = pNodeSet1->XAp_get_attribute_in_set(0);
                            meshInfo.m_fToCameraDist = (float)(att->DoubleValue());
                        }
                    }

                    {
                        // file name of the mesh
                        TinyXPath::xpath_processor xpathProc1(node->ToElement(), "@filename");
                        TinyXPath::expression_result res1 = xpathProc1.er_compute_xpath();
                        TinyXPath::node_set* pNodeSet1 = res1.nsp_get_node_set();
                        if(pNodeSet1!=0 && pNodeSet1->u_get_nb_node_in_set()>0)
                        {
                            const TiXmlAttribute* att = pNodeSet1->XAp_get_attribute_in_set(0);
                            string filepath = att->Value();
                            // check if it is relative path or absolute path
                            if(filepath.find('/')!=string::npos || filepath.find('\\')!=string::npos)
                                meshInfo.m_sFileName = filepath;
                            else
                                meshInfo.m_sFileName = m_sParentDirectory + filepath;
                        }
                    }
                }
            }
        }
    }
    catch (...)
    {
        OUTPUT_LOG("error parsing xml file %s**.xml \n", m_sParentDirectory.c_str());
        return false;
    }
    return true;
#endif
}
Esempio n. 2
0
  int l_select(lua_State *L) {
    const char *expr = luaL_checkstring(L, 1);
    TiXmlNode *node = (TiXmlNode *) lua_touserdata(L, 2);

    TinyXPath::xpath_processor xpp(node, expr);
    TinyXPath::expression_result res(xpp.er_compute_xpath());

    if (xpp.e_error != TinyXPath::xpath_processor::e_no_error) {
      string errmsg("error while computing xpath query `");
      errmsg += expr;
      errmsg += "'";
      return luaL_error(L, errmsg.c_str());
    }

    switch (res.e_type) {
    case TinyXPath::e_string:
      lua_pushstring(L, res.cp_get_string());
      return 1;
    case TinyXPath::e_node_set:
      {
	TinyXPath::node_set* ns;
	const TiXmlNode* node;
	ns = res.nsp_get_node_set();
	int nns(ns->u_get_nb_node_in_set());

	if (nns == 0) {
	  lua_pushnil(L);
	  return 1;
	}

	lua_createtable(L, nns, 0);

	for (int i=0; i<nns; i++) {
	  lua_pushinteger(L, i+1);

	  if (ns->o_is_attrib(i)) {
	    std::string attr_value = ns->S_get_value(i);
	    lua_pushstring(L, attr_value.c_str());
	  } else {
	    node = ns->XNp_get_node_in_set(i);

	    if (node->Type() == TiXmlNode::TEXT) {
	      lua_pushstring(L, node->Value());
	      break;
	    } else {
	      TiXmlNode_ud* node_userdata = (TiXmlNode_ud *) lua_newuserdata(L, sizeof(TiXmlNode_ud));
	      node_userdata->xmlnode = const_cast<TiXmlNode *>(node); //->Clone();

              luaL_newmetatable(L, "TiXmlNode");
	      lua_setmetatable(L, -2);

	      increase_tixmldocument_refcount(L, node->GetDocument());
	    }
	  }

	  lua_settable(L, -3);
	}

	return 1;
      }
    case TinyXPath::e_bool:
      lua_pushboolean(L, res.o_get_bool());
      return 1;
    case TinyXPath::e_int:
      lua_pushinteger(L, res.i_get_int());
      return 1;
    case TinyXPath::e_double:
      lua_pushnumber(L, res.d_get_double());
      return 1;
    case TinyXPath::e_invalid:
      return luaL_error(L, "invalid xpath expression");
    default:
      lua_pushnil(L);
      return 1;
    }
  }