assimp/code/PlyParser.cpp

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/*
---------------------------------------------------------------------------
Open Asset Import Library (assimp)
---------------------------------------------------------------------------
2016-01-01 20:07:24 +00:00
Copyright (c) 2006-2016, assimp team
All rights reserved.
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Redistribution and use of this software in source and binary forms,
with or without modification, are permitted provided that the following
conditions are met:
* Redistributions of source code must retain the above
copyright notice, this list of conditions and the
following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the
following disclaimer in the documentation and/or other
materials provided with the distribution.
* Neither the name of the assimp team, nor the names of its
contributors may be used to endorse or promote products
derived from this software without specific prior
written permission of the assimp team.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
---------------------------------------------------------------------------
*/
/** @file Implementation of the PLY parser class */
#ifndef ASSIMP_BUILD_NO_PLY_IMPORTER
#include "PlyLoader.h"
#include "fast_atof.h"
#include "../include/assimp/DefaultLogger.hpp"
#include "ByteSwapper.h"
using namespace Assimp;
// ------------------------------------------------------------------------------------------------
PLY::EDataType PLY::Property::ParseDataType(const char* pCur,const char** pCurOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut);
PLY::EDataType eOut = PLY::EDT_INVALID;
if (TokenMatch(pCur,"char",4) ||
TokenMatch(pCur,"int8",4))
{
eOut = PLY::EDT_Char;
}
else if (TokenMatch(pCur,"uchar",5) ||
TokenMatch(pCur,"uint8",5))
{
eOut = PLY::EDT_UChar;
}
else if (TokenMatch(pCur,"short",5) ||
TokenMatch(pCur,"int16",5))
{
eOut = PLY::EDT_Short;
}
else if (TokenMatch(pCur,"ushort",6) ||
TokenMatch(pCur,"uint16",6))
{
eOut = PLY::EDT_UShort;
}
else if (TokenMatch(pCur,"int32",5) || TokenMatch(pCur,"int",3))
{
eOut = PLY::EDT_Int;
}
else if (TokenMatch(pCur,"uint32",6) || TokenMatch(pCur,"uint",4))
{
eOut = PLY::EDT_UInt;
}
else if (TokenMatch(pCur,"float",5) || TokenMatch(pCur,"float32",7))
{
eOut = PLY::EDT_Float;
}
else if (TokenMatch(pCur,"double64",8) || TokenMatch(pCur,"double",6) ||
TokenMatch(pCur,"float64",7))
{
eOut = PLY::EDT_Double;
}
if (PLY::EDT_INVALID == eOut)
{
DefaultLogger::get()->info("Found unknown data type in PLY file. This is OK");
}
*pCurOut = pCur;
return eOut;
}
// ------------------------------------------------------------------------------------------------
PLY::ESemantic PLY::Property::ParseSemantic(const char* pCur,const char** pCurOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut);
PLY::ESemantic eOut = PLY::EST_INVALID;
if (TokenMatch(pCur,"red",3))
{
eOut = PLY::EST_Red;
}
else if (TokenMatch(pCur,"green",5))
{
eOut = PLY::EST_Green;
}
else if (TokenMatch(pCur,"blue",4))
{
eOut = PLY::EST_Blue;
}
else if (TokenMatch(pCur,"alpha",5))
{
eOut = PLY::EST_Alpha;
}
else if (TokenMatch(pCur,"vertex_index",12) || TokenMatch(pCur,"vertex_indices",14))
{
eOut = PLY::EST_VertexIndex;
}
else if (TokenMatch(pCur,"material_index",14))
{
eOut = PLY::EST_MaterialIndex;
}
else if (TokenMatch(pCur,"ambient_red",11))
{
eOut = PLY::EST_AmbientRed;
}
else if (TokenMatch(pCur,"ambient_green",13))
{
eOut = PLY::EST_AmbientGreen;
}
else if (TokenMatch(pCur,"ambient_blue",12))
{
eOut = PLY::EST_AmbientBlue;
}
else if (TokenMatch(pCur,"ambient_alpha",13))
{
eOut = PLY::EST_AmbientAlpha;
}
else if (TokenMatch(pCur,"diffuse_red",11))
{
eOut = PLY::EST_DiffuseRed;
}
else if (TokenMatch(pCur,"diffuse_green",13))
{
eOut = PLY::EST_DiffuseGreen;
}
else if (TokenMatch(pCur,"diffuse_blue",12))
{
eOut = PLY::EST_DiffuseBlue;
}
else if (TokenMatch(pCur,"diffuse_alpha",13))
{
eOut = PLY::EST_DiffuseAlpha;
}
else if (TokenMatch(pCur,"specular_red",12))
{
eOut = PLY::EST_SpecularRed;
}
else if (TokenMatch(pCur,"specular_green",14))
{
eOut = PLY::EST_SpecularGreen;
}
else if (TokenMatch(pCur,"specular_blue",13))
{
eOut = PLY::EST_SpecularBlue;
}
else if (TokenMatch(pCur,"specular_alpha",14))
{
eOut = PLY::EST_SpecularAlpha;
}
else if (TokenMatch(pCur,"opacity",7))
{
eOut = PLY::EST_Opacity;
}
else if (TokenMatch(pCur,"specular_power",14))
{
eOut = PLY::EST_PhongPower;
}
else if (TokenMatch(pCur,"r",1))
{
eOut = PLY::EST_Red;
}
else if (TokenMatch(pCur,"g",1))
{
eOut = PLY::EST_Green;
}
else if (TokenMatch(pCur,"b",1))
{
eOut = PLY::EST_Blue;
}
// NOTE: Blender3D exports texture coordinates as s,t tuples
else if (TokenMatch(pCur,"u",1) || TokenMatch(pCur,"s",1) || TokenMatch(pCur,"tx",2))
{
eOut = PLY::EST_UTextureCoord;
}
else if (TokenMatch(pCur,"v",1) || TokenMatch(pCur,"t",1) || TokenMatch(pCur,"ty",2))
{
eOut = PLY::EST_VTextureCoord;
}
else if (TokenMatch(pCur,"x",1))
{
eOut = PLY::EST_XCoord;
}
else if (TokenMatch(pCur,"y",1))
{
eOut = PLY::EST_YCoord;
}
else if (TokenMatch(pCur,"z",1))
{
eOut = PLY::EST_ZCoord;
}
else if (TokenMatch(pCur,"nx",2))
{
eOut = PLY::EST_XNormal;
}
else if (TokenMatch(pCur,"ny",2))
{
eOut = PLY::EST_YNormal;
}
else if (TokenMatch(pCur,"nz",2))
{
eOut = PLY::EST_ZNormal;
}
else
{
DefaultLogger::get()->info("Found unknown property semantic in file. This is ok");
SkipLine(&pCur);
}
*pCurOut = pCur;
return eOut;
}
// ------------------------------------------------------------------------------------------------
bool PLY::Property::ParseProperty (const char* pCur,
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const char** pCurOut,
PLY::Property* pOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut);
// Forms supported:
// "property float x"
// "property list uchar int vertex_index"
*pCurOut = pCur;
// skip leading spaces
if (!SkipSpaces(pCur,&pCur))return false;
// skip the "property" string at the beginning
if (!TokenMatch(pCur,"property",8))
{
// seems not to be a valid property entry
return false;
}
// get next word
if (!SkipSpaces(pCur,&pCur))return false;
if (TokenMatch(pCur,"list",4))
{
pOut->bIsList = true;
// seems to be a list.
if(EDT_INVALID == (pOut->eFirstType = PLY::Property::ParseDataType(pCur, &pCur)))
{
// unable to parse list size data type
SkipLine(pCur,&pCur);
*pCurOut = pCur;
return false;
}
if (!SkipSpaces(pCur,&pCur))return false;
if(EDT_INVALID == (pOut->eType = PLY::Property::ParseDataType(pCur, &pCur)))
{
// unable to parse list data type
SkipLine(pCur,&pCur);
*pCurOut = pCur;
return false;
}
}
else
{
if(EDT_INVALID == (pOut->eType = PLY::Property::ParseDataType(pCur, &pCur)))
{
// unable to parse data type. Skip the property
SkipLine(pCur,&pCur);
*pCurOut = pCur;
return false;
}
}
if (!SkipSpaces(pCur,&pCur))return false;
const char* szCur = pCur;
pOut->Semantic = PLY::Property::ParseSemantic(pCur, &pCur);
if (PLY::EST_INVALID == pOut->Semantic)
{
// store the name of the semantic
uintptr_t iDiff = (uintptr_t)pCur - (uintptr_t)szCur;
DefaultLogger::get()->info("Found unknown semantic in PLY file. This is OK");
pOut->szName = std::string(szCur,iDiff);
}
SkipSpacesAndLineEnd(pCur,&pCur);
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
PLY::EElementSemantic PLY::Element::ParseSemantic(const char* pCur,
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const char** pCurOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut);
PLY::EElementSemantic eOut = PLY::EEST_INVALID;
if (TokenMatch(pCur,"vertex",6))
{
eOut = PLY::EEST_Vertex;
}
else if (TokenMatch(pCur,"face",4))
{
eOut = PLY::EEST_Face;
}
#if 0
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// TODO: maybe implement this?
else if (TokenMatch(pCur,"range_grid",10))
{
eOut = PLY::EEST_Face;
}
#endif
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else if (TokenMatch(pCur,"tristrips",9))
{
eOut = PLY::EEST_TriStrip;
}
else if (TokenMatch(pCur,"edge",4))
{
eOut = PLY::EEST_Edge;
}
else if (TokenMatch(pCur,"material",8))
{
eOut = PLY::EEST_Material;
}
*pCurOut = pCur;
return eOut;
}
// ------------------------------------------------------------------------------------------------
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bool PLY::Element::ParseElement (const char* pCur,
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const char** pCurOut,
PLY::Element* pOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != pOut);
// Example format: "element vertex 8"
*pCurOut = pCur;
// skip leading spaces
if (!SkipSpaces(&pCur))return false;
// skip the "element" string at the beginning
if (!TokenMatch(pCur,"element",7))
{
// seems not to be a valid property entry
return false;
}
// get next word
if (!SkipSpaces(&pCur))return false;
// parse the semantic of the element
const char* szCur = pCur;
pOut->eSemantic = PLY::Element::ParseSemantic(pCur,&pCur);
if (PLY::EEST_INVALID == pOut->eSemantic)
{
// if the exact semantic can't be determined, just store
// the original string identifier
uintptr_t iDiff = (uintptr_t)pCur - (uintptr_t)szCur;
pOut->szName = std::string(szCur,iDiff);
}
if (!SkipSpaces(&pCur))return false;
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//parse the number of occurrences of this element
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pOut->NumOccur = strtoul10(pCur,&pCur);
// go to the next line
SkipSpacesAndLineEnd(pCur,&pCur);
// now parse all properties of the element
while(true)
{
// skip all comments
PLY::DOM::SkipComments(pCur,&pCur);
PLY::Property prop;
if(!PLY::Property::ParseProperty(pCur,&pCur,&prop))break;
pOut->alProperties.push_back(prop);
}
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::DOM::SkipComments (const char* pCur,
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const char** pCurOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut);
*pCurOut = pCur;
// skip spaces
if (!SkipSpaces(pCur,&pCur))return false;
if (TokenMatch(pCur,"comment",7))
{
if ( !IsLineEnd(pCur[-1]) )
{
SkipLine(pCur,&pCur);
}
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SkipComments(pCur,&pCur);
*pCurOut = pCur;
return true;
}
*pCurOut = pCur;
return false;
}
// ------------------------------------------------------------------------------------------------
bool PLY::DOM::ParseHeader (const char* pCur,const char** pCurOut,bool isBinary)
{
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ai_assert(NULL != pCur && NULL != pCurOut);
DefaultLogger::get()->debug("PLY::DOM::ParseHeader() begin");
// after ply and format line
*pCurOut = pCur;
// parse all elements
while ((*pCur) != '\0')
{
// skip all comments
PLY::DOM::SkipComments(pCur,&pCur);
PLY::Element out;
if(PLY::Element::ParseElement(pCur,&pCur,&out))
{
// add the element to the list of elements
alElements.push_back(out);
}
else if (TokenMatch(pCur,"end_header",10))
{
// we have reached the end of the header
break;
}
else
{
// ignore unknown header elements
SkipLine(&pCur);
}
}
if(!isBinary)
{ // it would occur an error, if binary data start with values as space or line end.
SkipSpacesAndLineEnd(pCur,&pCur);
}
*pCurOut = pCur;
DefaultLogger::get()->debug("PLY::DOM::ParseHeader() succeeded");
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::DOM::ParseElementInstanceLists (
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const char* pCur,
const char** pCurOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut);
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DefaultLogger::get()->debug("PLY::DOM::ParseElementInstanceLists() begin");
*pCurOut = pCur;
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alElementData.resize(alElements.size());
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std::vector<PLY::Element>::const_iterator i = alElements.begin();
std::vector<PLY::ElementInstanceList>::iterator a = alElementData.begin();
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// parse all element instances
for (;i != alElements.end();++i,++a)
{
(*a).alInstances.resize((*i).NumOccur);
PLY::ElementInstanceList::ParseInstanceList(pCur,&pCur,&(*i),&(*a));
}
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DefaultLogger::get()->debug("PLY::DOM::ParseElementInstanceLists() succeeded");
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::DOM::ParseElementInstanceListsBinary (
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const char* pCur,
const char** pCurOut,
bool p_bBE)
{
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ai_assert(NULL != pCur && NULL != pCurOut);
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DefaultLogger::get()->debug("PLY::DOM::ParseElementInstanceListsBinary() begin");
*pCurOut = pCur;
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alElementData.resize(alElements.size());
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std::vector<PLY::Element>::const_iterator i = alElements.begin();
std::vector<PLY::ElementInstanceList>::iterator a = alElementData.begin();
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// parse all element instances
for (;i != alElements.end();++i,++a)
{
(*a).alInstances.resize((*i).NumOccur);
PLY::ElementInstanceList::ParseInstanceListBinary(pCur,&pCur,&(*i),&(*a),p_bBE);
}
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DefaultLogger::get()->debug("PLY::DOM::ParseElementInstanceListsBinary() succeeded");
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::DOM::ParseInstanceBinary (const char* pCur,DOM* p_pcOut,bool p_bBE)
{
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ai_assert(NULL != pCur && NULL != p_pcOut);
DefaultLogger::get()->debug("PLY::DOM::ParseInstanceBinary() begin");
if(!p_pcOut->ParseHeader(pCur,&pCur,true))
{
DefaultLogger::get()->debug("PLY::DOM::ParseInstanceBinary() failure");
return false;
}
if(!p_pcOut->ParseElementInstanceListsBinary(pCur,&pCur,p_bBE))
{
DefaultLogger::get()->debug("PLY::DOM::ParseInstanceBinary() failure");
return false;
}
DefaultLogger::get()->debug("PLY::DOM::ParseInstanceBinary() succeeded");
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::DOM::ParseInstance (const char* pCur,DOM* p_pcOut)
{
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ai_assert(NULL != pCur);
ai_assert(NULL != p_pcOut);
DefaultLogger::get()->debug("PLY::DOM::ParseInstance() begin");
if(!p_pcOut->ParseHeader(pCur,&pCur,false))
{
DefaultLogger::get()->debug("PLY::DOM::ParseInstance() failure");
return false;
}
if(!p_pcOut->ParseElementInstanceLists(pCur,&pCur))
{
DefaultLogger::get()->debug("PLY::DOM::ParseInstance() failure");
return false;
}
DefaultLogger::get()->debug("PLY::DOM::ParseInstance() succeeded");
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::ElementInstanceList::ParseInstanceList (
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const char* pCur,
const char** pCurOut,
const PLY::Element* pcElement,
PLY::ElementInstanceList* p_pcOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != pcElement && NULL != p_pcOut);
if (EEST_INVALID == pcElement->eSemantic || pcElement->alProperties.empty())
{
// if the element has an unknown semantic we can skip all lines
// However, there could be comments
for (unsigned int i = 0; i < pcElement->NumOccur;++i)
{
PLY::DOM::SkipComments(pCur,&pCur);
SkipLine(pCur,&pCur);
}
}
else
{
// be sure to have enough storage
for (unsigned int i = 0; i < pcElement->NumOccur;++i)
{
PLY::DOM::SkipComments(pCur,&pCur);
PLY::ElementInstance::ParseInstance(pCur, &pCur,pcElement,
&p_pcOut->alInstances[i]);
}
}
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::ElementInstanceList::ParseInstanceListBinary (
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const char* pCur,
const char** pCurOut,
const PLY::Element* pcElement,
PLY::ElementInstanceList* p_pcOut,
bool p_bBE /* = false */)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != pcElement && NULL != p_pcOut);
// we can add special handling code for unknown element semantics since
// we can't skip it as a whole block (we don't know its exact size
// due to the fact that lists could be contained in the property list
// of the unknown element)
for (unsigned int i = 0; i < pcElement->NumOccur;++i)
{
PLY::ElementInstance::ParseInstanceBinary(pCur, &pCur,pcElement,
&p_pcOut->alInstances[i], p_bBE);
}
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::ElementInstance::ParseInstance (
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const char* pCur,
const char** pCurOut,
const PLY::Element* pcElement,
PLY::ElementInstance* p_pcOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != pcElement && NULL != p_pcOut);
if (!SkipSpaces(pCur, &pCur))return false;
// allocate enough storage
p_pcOut->alProperties.resize(pcElement->alProperties.size());
std::vector<PLY::PropertyInstance>::iterator i = p_pcOut->alProperties.begin();
std::vector<PLY::Property>::const_iterator a = pcElement->alProperties.begin();
for (;i != p_pcOut->alProperties.end();++i,++a)
{
if(!(PLY::PropertyInstance::ParseInstance(pCur, &pCur,&(*a),&(*i))))
{
DefaultLogger::get()->warn("Unable to parse property instance. "
"Skipping this element instance");
// skip the rest of the instance
SkipLine(pCur, &pCur);
PLY::PropertyInstance::ValueUnion v = PLY::PropertyInstance::DefaultValue((*a).eType);
(*i).avList.push_back(v);
}
}
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::ElementInstance::ParseInstanceBinary (
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const char* pCur,
const char** pCurOut,
const PLY::Element* pcElement,
PLY::ElementInstance* p_pcOut,
bool p_bBE /* = false */)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != pcElement && NULL != p_pcOut);
// allocate enough storage
p_pcOut->alProperties.resize(pcElement->alProperties.size());
std::vector<PLY::PropertyInstance>::iterator i = p_pcOut->alProperties.begin();
std::vector<PLY::Property>::const_iterator a = pcElement->alProperties.begin();
for (;i != p_pcOut->alProperties.end();++i,++a)
{
if(!(PLY::PropertyInstance::ParseInstanceBinary(pCur, &pCur,&(*a),&(*i),p_bBE)))
{
DefaultLogger::get()->warn("Unable to parse binary property instance. "
"Skipping this element instance");
(*i).avList.push_back(PLY::PropertyInstance::DefaultValue((*a).eType));
}
}
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::PropertyInstance::ParseInstance (const char* pCur,const char** pCurOut,
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const PLY::Property* prop, PLY::PropertyInstance* p_pcOut)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != prop && NULL != p_pcOut);
*pCurOut = pCur;
// skip spaces at the beginning
if (!SkipSpaces(pCur, &pCur))return false;
if (prop->bIsList)
{
// parse the number of elements in the list
PLY::PropertyInstance::ValueUnion v;
PLY::PropertyInstance::ParseValue(pCur, &pCur,prop->eFirstType,&v);
// convert to unsigned int
unsigned int iNum = PLY::PropertyInstance::ConvertTo<unsigned int>(v,prop->eFirstType);
// parse all list elements
p_pcOut->avList.resize(iNum);
for (unsigned int i = 0; i < iNum;++i)
{
if (!SkipSpaces(pCur, &pCur))return false;
PLY::PropertyInstance::ParseValue(pCur, &pCur,prop->eType,&p_pcOut->avList[i]);
}
}
else
{
// parse the property
PLY::PropertyInstance::ValueUnion v;
PLY::PropertyInstance::ParseValue(pCur, &pCur,prop->eType,&v);
p_pcOut->avList.push_back(v);
}
SkipSpacesAndLineEnd(pCur, &pCur);
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
bool PLY::PropertyInstance::ParseInstanceBinary (
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const char* pCur,
const char** pCurOut,
const PLY::Property* prop,
PLY::PropertyInstance* p_pcOut,
bool p_bBE)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != prop && NULL != p_pcOut);
if (prop->bIsList)
{
// parse the number of elements in the list
PLY::PropertyInstance::ValueUnion v;
PLY::PropertyInstance::ParseValueBinary(pCur, &pCur,prop->eFirstType,&v,p_bBE);
// convert to unsigned int
unsigned int iNum = PLY::PropertyInstance::ConvertTo<unsigned int>(v,prop->eFirstType);
// parse all list elements
p_pcOut->avList.resize(iNum);
for (unsigned int i = 0; i < iNum;++i){
PLY::PropertyInstance::ParseValueBinary(pCur, &pCur,prop->eType,&p_pcOut->avList[i],p_bBE);
}
}
else
{
// parse the property
PLY::PropertyInstance::ValueUnion v;
PLY::PropertyInstance::ParseValueBinary(pCur, &pCur,prop->eType,&v,p_bBE);
p_pcOut->avList.push_back(v);
}
*pCurOut = pCur;
return true;
}
// ------------------------------------------------------------------------------------------------
PLY::PropertyInstance::ValueUnion PLY::PropertyInstance::DefaultValue(
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PLY::EDataType eType)
{
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PLY::PropertyInstance::ValueUnion out;
switch (eType)
{
case EDT_Float:
out.fFloat = 0.f;
return out;
case EDT_Double:
out.fDouble = 0.;
return out;
default: ;
};
out.iUInt = 0;
return out;
}
// ------------------------------------------------------------------------------------------------
bool PLY::PropertyInstance::ParseValue(
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const char* pCur,
const char** pCurOut,
PLY::EDataType eType,
PLY::PropertyInstance::ValueUnion* out)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != out);
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bool ret = true;
*pCurOut = pCur;
switch (eType)
{
case EDT_UInt:
case EDT_UShort:
case EDT_UChar:
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out->iUInt = (uint32_t)strtoul10(pCur, &pCur);
break;
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case EDT_Int:
case EDT_Short:
case EDT_Char:
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out->iInt = (int32_t)strtol10(pCur, &pCur);
break;
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case EDT_Float:
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pCur = fast_atoreal_move<float>(pCur,out->fFloat);
break;
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case EDT_Double:
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float f;
pCur = fast_atoreal_move<float>(pCur,f);
out->fDouble = (double)f;
break;
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default:
ret = false;
}
*pCurOut = pCur;
return ret;
}
// ------------------------------------------------------------------------------------------------
bool PLY::PropertyInstance::ParseValueBinary(
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const char* pCur,
const char** pCurOut,
PLY::EDataType eType,
PLY::PropertyInstance::ValueUnion* out,
bool p_bBE)
{
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ai_assert(NULL != pCur && NULL != pCurOut && NULL != out);
bool ret = true;
switch (eType)
{
case EDT_UInt:
out->iUInt = (uint32_t)*((uint32_t*)pCur);
pCur += 4;
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// Swap endianness
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if (p_bBE)ByteSwap::Swap((int32_t*)&out->iUInt);
break;
case EDT_UShort:
{
uint16_t i = *((uint16_t*)pCur);
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// Swap endianness
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if (p_bBE)ByteSwap::Swap(&i);
out->iUInt = (uint32_t)i;
pCur += 2;
break;
}
case EDT_UChar:
{
out->iUInt = (uint32_t)(*((uint8_t*)pCur));
pCur ++;
break;
}
case EDT_Int:
out->iInt = *((int32_t*)pCur);
pCur += 4;
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// Swap endianness
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if (p_bBE)ByteSwap::Swap(&out->iInt);
break;
case EDT_Short:
{
int16_t i = *((int16_t*)pCur);
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// Swap endianness
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if (p_bBE)ByteSwap::Swap(&i);
out->iInt = (int32_t)i;
pCur += 2;
break;
}
case EDT_Char:
out->iInt = (int32_t)*((int8_t*)pCur);
pCur ++;
break;
case EDT_Float:
{
out->fFloat = *((float*)pCur);
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// Swap endianness
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if (p_bBE)ByteSwap::Swap((int32_t*)&out->fFloat);
pCur += 4;
break;
}
case EDT_Double:
{
out->fDouble = *((double*)pCur);
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// Swap endianness
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if (p_bBE)ByteSwap::Swap((int64_t*)&out->fDouble);
pCur += 8;
break;
}
default:
ret = false;
}
*pCurOut = pCur;
return ret;
}
#endif // !! ASSIMP_BUILD_NO_PLY_IMPORTER