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/*
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Open Asset Import Library ( assimp )
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Copyright ( c ) 2006 - 2020 , assimp team
All rights reserved .
Redistribution and use of this software in source and binary forms ,
with or without modification , are permitted provided that the following
conditions are met :
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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
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* Neither the name of the assimp team , nor the names of its
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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
A PARTICULAR PURPOSE ARE DISCLAIMED . IN NO EVENT SHALL THE COPYRIGHT
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*/
/// \file AMFImporter.cpp
/// \brief AMF-format files importer for Assimp: main algorithm implementation.
/// \date 2016
/// \author smal.root@gmail.com
# ifndef ASSIMP_BUILD_NO_AMF_IMPORTER
// Header files, Assimp.
# include "AMFImporter.hpp"
# include "AMFImporter_Macro.hpp"
# include <assimp/DefaultIOSystem.h>
# include <assimp/fast_atof.h>
// Header files, stdlib.
# include <memory>
namespace Assimp {
/// \var aiImporterDesc AMFImporter::Description
/// Conastant which hold importer description
const aiImporterDesc AMFImporter : : Description = {
" Additive manufacturing file format(AMF) Importer " ,
" smalcom " ,
" " ,
" See documentation in source code. Chapter: Limitations. " ,
aiImporterFlags_SupportTextFlavour | aiImporterFlags_LimitedSupport | aiImporterFlags_Experimental ,
0 ,
0 ,
0 ,
0 ,
" amf "
} ;
void AMFImporter : : Clear ( ) {
mNodeElement_Cur = nullptr ;
mUnit . clear ( ) ;
mMaterial_Converted . clear ( ) ;
mTexture_Converted . clear ( ) ;
// Delete all elements
if ( ! mNodeElement_List . empty ( ) ) {
for ( CAMFImporter_NodeElement * ne : mNodeElement_List ) {
delete ne ;
}
mNodeElement_List . clear ( ) ;
}
}
AMFImporter : : ~ AMFImporter ( ) {
if ( mReader ! = nullptr ) delete mReader ;
// Clear() is accounting if data already is deleted. So, just check again if all data is deleted.
Clear ( ) ;
}
/*********************************************************************************************************************************************/
/************************************************************ Functions: find set ************************************************************/
/*********************************************************************************************************************************************/
bool AMFImporter : : Find_NodeElement ( const std : : string & pID , const CAMFImporter_NodeElement : : EType pType , CAMFImporter_NodeElement * * pNodeElement ) const {
for ( CAMFImporter_NodeElement * ne : mNodeElement_List ) {
if ( ( ne - > ID = = pID ) & & ( ne - > Type = = pType ) ) {
if ( pNodeElement ! = nullptr ) * pNodeElement = ne ;
return true ;
}
} // for(CAMFImporter_NodeElement* ne: mNodeElement_List)
return false ;
}
bool AMFImporter : : Find_ConvertedNode ( const std : : string & pID , std : : list < aiNode * > & pNodeList , aiNode * * pNode ) const {
aiString node_name ( pID . c_str ( ) ) ;
for ( aiNode * node : pNodeList ) {
if ( node - > mName = = node_name ) {
if ( pNode ! = nullptr ) * pNode = node ;
return true ;
}
} // for(aiNode* node: pNodeList)
return false ;
}
bool AMFImporter : : Find_ConvertedMaterial ( const std : : string & pID , const SPP_Material * * pConvertedMaterial ) const {
for ( const SPP_Material & mat : mMaterial_Converted ) {
if ( mat . ID = = pID ) {
if ( pConvertedMaterial ! = nullptr ) * pConvertedMaterial = & mat ;
return true ;
}
} // for(const SPP_Material& mat: mMaterial_Converted)
return false ;
}
/*********************************************************************************************************************************************/
/************************************************************ Functions: throw set ***********************************************************/
/*********************************************************************************************************************************************/
void AMFImporter : : Throw_CloseNotFound ( const std : : string & pNode ) {
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throw DeadlyImportError ( " Close tag for node < " , pNode , " > not found. Seems file is corrupt. " ) ;
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}
void AMFImporter : : Throw_IncorrectAttr ( const std : : string & pAttrName ) {
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throw DeadlyImportError ( " Node < " , std : : string ( mReader - > getNodeName ( ) ) , " > has incorrect attribute \" " , pAttrName , " \" . " ) ;
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}
void AMFImporter : : Throw_IncorrectAttrValue ( const std : : string & pAttrName ) {
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throw DeadlyImportError ( " Attribute \" " , pAttrName , " \" in node < " , std : : string ( mReader - > getNodeName ( ) ) , " > has incorrect value. " ) ;
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}
void AMFImporter : : Throw_MoreThanOnceDefined ( const std : : string & pNodeType , const std : : string & pDescription ) {
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throw DeadlyImportError ( " \" " , pNodeType , " \" node can be used only once in " , mReader - > getNodeName ( ) , " . Description: " , pDescription ) ;
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}
void AMFImporter : : Throw_ID_NotFound ( const std : : string & pID ) const {
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throw DeadlyImportError ( " Not found node with name \" " , pID , " \" . " ) ;
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}
/*********************************************************************************************************************************************/
/************************************************************* Functions: XML set ************************************************************/
/*********************************************************************************************************************************************/
void AMFImporter : : XML_CheckNode_MustHaveChildren ( ) {
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if ( mReader - > isEmptyElement ( ) ) throw DeadlyImportError ( " Node < " , mReader - > getNodeName ( ) , " > must have children. " ) ;
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}
void AMFImporter : : XML_CheckNode_SkipUnsupported ( const std : : string & pParentNodeName ) {
static const size_t Uns_Skip_Len = 3 ;
const char * Uns_Skip [ Uns_Skip_Len ] = { " composite " , " edge " , " normal " } ;
static bool skipped_before [ Uns_Skip_Len ] = { false , false , false } ;
std : : string nn ( mReader - > getNodeName ( ) ) ;
bool found = false ;
bool close_found = false ;
size_t sk_idx ;
for ( sk_idx = 0 ; sk_idx < Uns_Skip_Len ; sk_idx + + ) {
if ( nn ! = Uns_Skip [ sk_idx ] ) continue ;
found = true ;
if ( mReader - > isEmptyElement ( ) ) {
close_found = true ;
goto casu_cres ;
}
while ( mReader - > read ( ) ) {
if ( ( mReader - > getNodeType ( ) = = irr : : io : : EXN_ELEMENT_END ) & & ( nn = = mReader - > getNodeName ( ) ) ) {
close_found = true ;
goto casu_cres ;
}
}
} // for(sk_idx = 0; sk_idx < Uns_Skip_Len; sk_idx++)
casu_cres :
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if ( ! found ) throw DeadlyImportError ( " Unknown node \" " , nn , " \" in " , pParentNodeName , " . " ) ;
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if ( ! close_found ) Throw_CloseNotFound ( nn ) ;
if ( ! skipped_before [ sk_idx ] ) {
skipped_before [ sk_idx ] = true ;
ASSIMP_LOG_WARN_F ( " Skipping node \" " , nn , " \" in " , pParentNodeName , " . " ) ;
}
}
bool AMFImporter : : XML_SearchNode ( const std : : string & pNodeName ) {
while ( mReader - > read ( ) ) {
if ( ( mReader - > getNodeType ( ) = = irr : : io : : EXN_ELEMENT ) & & XML_CheckNode_NameEqual ( pNodeName ) ) return true ;
}
return false ;
}
bool AMFImporter : : XML_ReadNode_GetAttrVal_AsBool ( const int pAttrIdx ) {
std : : string val ( mReader - > getAttributeValue ( pAttrIdx ) ) ;
if ( ( val = = " false " ) | | ( val = = " 0 " ) )
return false ;
else if ( ( val = = " true " ) | | ( val = = " 1 " ) )
return true ;
else
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throw DeadlyImportError ( " Bool attribute value can contain \" false \" / \" 0 \" or \" true \" / \" 1 \" not the \" " , val , " \" " ) ;
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}
float AMFImporter : : XML_ReadNode_GetAttrVal_AsFloat ( const int pAttrIdx ) {
std : : string val ;
float tvalf ;
ParseHelper_FixTruncatedFloatString ( mReader - > getAttributeValue ( pAttrIdx ) , val ) ;
fast_atoreal_move ( val . c_str ( ) , tvalf , false ) ;
return tvalf ;
}
uint32_t AMFImporter : : XML_ReadNode_GetAttrVal_AsU32 ( const int pAttrIdx ) {
return strtoul10 ( mReader - > getAttributeValue ( pAttrIdx ) ) ;
}
float AMFImporter : : XML_ReadNode_GetVal_AsFloat ( ) {
std : : string val ;
float tvalf ;
if ( ! mReader - > read ( ) ) throw DeadlyImportError ( " XML_ReadNode_GetVal_AsFloat. No data, seems file is corrupt. " ) ;
if ( mReader - > getNodeType ( ) ! = irr : : io : : EXN_TEXT ) throw DeadlyImportError ( " XML_ReadNode_GetVal_AsFloat. Invalid type of XML element, seems file is corrupt. " ) ;
ParseHelper_FixTruncatedFloatString ( mReader - > getNodeData ( ) , val ) ;
fast_atoreal_move ( val . c_str ( ) , tvalf , false ) ;
return tvalf ;
}
uint32_t AMFImporter : : XML_ReadNode_GetVal_AsU32 ( ) {
if ( ! mReader - > read ( ) ) throw DeadlyImportError ( " XML_ReadNode_GetVal_AsU32. No data, seems file is corrupt. " ) ;
if ( mReader - > getNodeType ( ) ! = irr : : io : : EXN_TEXT ) throw DeadlyImportError ( " XML_ReadNode_GetVal_AsU32. Invalid type of XML element, seems file is corrupt. " ) ;
return strtoul10 ( mReader - > getNodeData ( ) ) ;
}
void AMFImporter : : XML_ReadNode_GetVal_AsString ( std : : string & pValue ) {
if ( ! mReader - > read ( ) ) throw DeadlyImportError ( " XML_ReadNode_GetVal_AsString. No data, seems file is corrupt. " ) ;
if ( mReader - > getNodeType ( ) ! = irr : : io : : EXN_TEXT )
throw DeadlyImportError ( " XML_ReadNode_GetVal_AsString. Invalid type of XML element, seems file is corrupt. " ) ;
pValue = mReader - > getNodeData ( ) ;
}
/*********************************************************************************************************************************************/
/************************************************************ Functions: parse set ***********************************************************/
/*********************************************************************************************************************************************/
void AMFImporter : : ParseHelper_Node_Enter ( CAMFImporter_NodeElement * pNode ) {
mNodeElement_Cur - > Child . push_back ( pNode ) ; // add new element to current element child list.
mNodeElement_Cur = pNode ; // switch current element to new one.
}
void AMFImporter : : ParseHelper_Node_Exit ( ) {
// check if we can walk up.
if ( mNodeElement_Cur ! = nullptr ) mNodeElement_Cur = mNodeElement_Cur - > Parent ;
}
void AMFImporter : : ParseHelper_FixTruncatedFloatString ( const char * pInStr , std : : string & pOutString ) {
size_t instr_len ;
pOutString . clear ( ) ;
instr_len = strlen ( pInStr ) ;
if ( ! instr_len ) return ;
pOutString . reserve ( instr_len * 3 / 2 ) ;
// check and correct floats in format ".x". Must be "x.y".
if ( pInStr [ 0 ] = = ' . ' ) pOutString . push_back ( ' 0 ' ) ;
pOutString . push_back ( pInStr [ 0 ] ) ;
for ( size_t ci = 1 ; ci < instr_len ; ci + + ) {
if ( ( pInStr [ ci ] = = ' . ' ) & & ( ( pInStr [ ci - 1 ] = = ' ' ) | | ( pInStr [ ci - 1 ] = = ' - ' ) | | ( pInStr [ ci - 1 ] = = ' + ' ) | | ( pInStr [ ci - 1 ] = = ' \t ' ) ) ) {
pOutString . push_back ( ' 0 ' ) ;
pOutString . push_back ( ' . ' ) ;
} else {
pOutString . push_back ( pInStr [ ci ] ) ;
}
}
}
static bool ParseHelper_Decode_Base64_IsBase64 ( const char pChar ) {
return ( isalnum ( pChar ) | | ( pChar = = ' + ' ) | | ( pChar = = ' / ' ) ) ;
}
void AMFImporter : : ParseHelper_Decode_Base64 ( const std : : string & pInputBase64 , std : : vector < uint8_t > & pOutputData ) const {
// With help from
// René Nyffenegger http://www.adp-gmbh.ch/cpp/common/base64.html
const std : : string base64_chars = " ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/ " ;
uint8_t tidx = 0 ;
uint8_t arr4 [ 4 ] , arr3 [ 3 ] ;
// check input data
if ( pInputBase64 . size ( ) % 4 ) throw DeadlyImportError ( " Base64-encoded data must have size multiply of four. " ) ;
// prepare output place
pOutputData . clear ( ) ;
pOutputData . reserve ( pInputBase64 . size ( ) / 4 * 3 ) ;
for ( size_t in_len = pInputBase64 . size ( ) , in_idx = 0 ; ( in_len > 0 ) & & ( pInputBase64 [ in_idx ] ! = ' = ' ) ; in_len - - ) {
if ( ParseHelper_Decode_Base64_IsBase64 ( pInputBase64 [ in_idx ] ) ) {
arr4 [ tidx + + ] = pInputBase64 [ in_idx + + ] ;
if ( tidx = = 4 ) {
for ( tidx = 0 ; tidx < 4 ; tidx + + )
arr4 [ tidx ] = ( uint8_t ) base64_chars . find ( arr4 [ tidx ] ) ;
arr3 [ 0 ] = ( arr4 [ 0 ] < < 2 ) + ( ( arr4 [ 1 ] & 0x30 ) > > 4 ) ;
arr3 [ 1 ] = ( ( arr4 [ 1 ] & 0x0F ) < < 4 ) + ( ( arr4 [ 2 ] & 0x3C ) > > 2 ) ;
arr3 [ 2 ] = ( ( arr4 [ 2 ] & 0x03 ) < < 6 ) + arr4 [ 3 ] ;
for ( tidx = 0 ; tidx < 3 ; tidx + + )
pOutputData . push_back ( arr3 [ tidx ] ) ;
tidx = 0 ;
} // if(tidx == 4)
} // if(ParseHelper_Decode_Base64_IsBase64(pInputBase64[in_idx]))
else {
in_idx + + ;
} // if(ParseHelper_Decode_Base64_IsBase64(pInputBase64[in_idx])) else
}
if ( tidx ) {
for ( uint8_t i = tidx ; i < 4 ; i + + )
arr4 [ i ] = 0 ;
for ( uint8_t i = 0 ; i < 4 ; i + + )
arr4 [ i ] = ( uint8_t ) ( base64_chars . find ( arr4 [ i ] ) ) ;
arr3 [ 0 ] = ( arr4 [ 0 ] < < 2 ) + ( ( arr4 [ 1 ] & 0x30 ) > > 4 ) ;
arr3 [ 1 ] = ( ( arr4 [ 1 ] & 0x0F ) < < 4 ) + ( ( arr4 [ 2 ] & 0x3C ) > > 2 ) ;
arr3 [ 2 ] = ( ( arr4 [ 2 ] & 0x03 ) < < 6 ) + arr4 [ 3 ] ;
for ( uint8_t i = 0 ; i < ( tidx - 1 ) ; i + + )
pOutputData . push_back ( arr3 [ i ] ) ;
}
}
void AMFImporter : : ParseFile ( const std : : string & pFile , IOSystem * pIOHandler ) {
irr : : io : : IrrXMLReader * OldReader = mReader ; // store current XMLreader.
std : : unique_ptr < IOStream > file ( pIOHandler - > Open ( pFile , " rb " ) ) ;
// Check whether we can read from the file
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if ( file . get ( ) = = nullptr ) {
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throw DeadlyImportError ( " Failed to open AMF file " , pFile , " . " ) ;
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}
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// generate a XML reader for it
std : : unique_ptr < CIrrXML_IOStreamReader > mIOWrapper ( new CIrrXML_IOStreamReader ( file . get ( ) ) ) ;
mReader = irr : : io : : createIrrXMLReader ( mIOWrapper . get ( ) ) ;
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if ( ! mReader ) throw DeadlyImportError ( " Failed to create XML reader for file " , pFile , " . " ) ;
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//
// start reading
// search for root tag <amf>
if ( XML_SearchNode ( " amf " ) )
ParseNode_Root ( ) ;
else
throw DeadlyImportError ( " Root node \" amf \" not found. " ) ;
delete mReader ;
// restore old XMLreader
mReader = OldReader ;
}
// <amf
// unit="" - The units to be used. May be "inch", "millimeter", "meter", "feet", or "micron".
// version="" - Version of file format.
// >
// </amf>
// Root XML element.
// Multi elements - No.
void AMFImporter : : ParseNode_Root ( ) {
std : : string unit , version ;
CAMFImporter_NodeElement * ne ( nullptr ) ;
// Read attributes for node <amf>.
MACRO_ATTRREAD_LOOPBEG ;
MACRO_ATTRREAD_CHECK_RET ( " unit " , unit , mReader - > getAttributeValue ) ;
MACRO_ATTRREAD_CHECK_RET ( " version " , version , mReader - > getAttributeValue ) ;
MACRO_ATTRREAD_LOOPEND_WSKIP ;
// Check attributes
if ( ! mUnit . empty ( ) ) {
if ( ( mUnit ! = " inch " ) & & ( mUnit ! = " millimeter " ) & & ( mUnit ! = " meter " ) & & ( mUnit ! = " feet " ) & & ( mUnit ! = " micron " ) ) Throw_IncorrectAttrValue ( " unit " ) ;
}
// create root node element.
ne = new CAMFImporter_NodeElement_Root ( nullptr ) ;
mNodeElement_Cur = ne ; // set first "current" element
// and assign attribute's values
( ( CAMFImporter_NodeElement_Root * ) ne ) - > Unit = unit ;
( ( CAMFImporter_NodeElement_Root * ) ne ) - > Version = version ;
// Check for child nodes
if ( ! mReader - > isEmptyElement ( ) ) {
MACRO_NODECHECK_LOOPBEGIN ( " amf " ) ;
if ( XML_CheckNode_NameEqual ( " object " ) ) {
ParseNode_Object ( ) ;
continue ;
}
if ( XML_CheckNode_NameEqual ( " material " ) ) {
ParseNode_Material ( ) ;
continue ;
}
if ( XML_CheckNode_NameEqual ( " texture " ) ) {
ParseNode_Texture ( ) ;
continue ;
}
if ( XML_CheckNode_NameEqual ( " constellation " ) ) {
ParseNode_Constellation ( ) ;
continue ;
}
if ( XML_CheckNode_NameEqual ( " metadata " ) ) {
ParseNode_Metadata ( ) ;
continue ;
}
MACRO_NODECHECK_LOOPEND ( " amf " ) ;
mNodeElement_Cur = ne ; // force restore "current" element
} // if(!mReader->isEmptyElement())
mNodeElement_List . push_back ( ne ) ; // add to node element list because its a new object in graph.
}
// <constellation
// id="" - The Object ID of the new constellation being defined.
// >
// </constellation>
// A collection of objects or constellations with specific relative locations.
// Multi elements - Yes.
// Parent element - <amf>.
void AMFImporter : : ParseNode_Constellation ( ) {
std : : string id ;
CAMFImporter_NodeElement * ne ( nullptr ) ;
// Read attributes for node <constellation>.
MACRO_ATTRREAD_LOOPBEG ;
MACRO_ATTRREAD_CHECK_RET ( " id " , id , mReader - > getAttributeValue ) ;
MACRO_ATTRREAD_LOOPEND ;
// create and if needed - define new grouping object.
ne = new CAMFImporter_NodeElement_Constellation ( mNodeElement_Cur ) ;
CAMFImporter_NodeElement_Constellation & als = * ( ( CAMFImporter_NodeElement_Constellation * ) ne ) ; // alias for convenience
if ( ! id . empty ( ) ) als . ID = id ;
// Check for child nodes
if ( ! mReader - > isEmptyElement ( ) ) {
ParseHelper_Node_Enter ( ne ) ;
MACRO_NODECHECK_LOOPBEGIN ( " constellation " ) ;
if ( XML_CheckNode_NameEqual ( " instance " ) ) {
ParseNode_Instance ( ) ;
continue ;
}
if ( XML_CheckNode_NameEqual ( " metadata " ) ) {
ParseNode_Metadata ( ) ;
continue ;
}
MACRO_NODECHECK_LOOPEND ( " constellation " ) ;
ParseHelper_Node_Exit ( ) ;
} // if(!mReader->isEmptyElement())
else {
mNodeElement_Cur - > Child . push_back ( ne ) ; // Add element to child list of current element
} // if(!mReader->isEmptyElement()) else
mNodeElement_List . push_back ( ne ) ; // and to node element list because its a new object in graph.
}
// <instance
// objectid="" - The Object ID of the new constellation being defined.
// >
// </instance>
// A collection of objects or constellations with specific relative locations.
// Multi elements - Yes.
// Parent element - <amf>.
void AMFImporter : : ParseNode_Instance ( ) {
std : : string objectid ;
CAMFImporter_NodeElement * ne ( nullptr ) ;
// Read attributes for node <constellation>.
MACRO_ATTRREAD_LOOPBEG ;
MACRO_ATTRREAD_CHECK_RET ( " objectid " , objectid , mReader - > getAttributeValue ) ;
MACRO_ATTRREAD_LOOPEND ;
// used object id must be defined, check that.
if ( objectid . empty ( ) ) throw DeadlyImportError ( " \" objectid \" in <instance> must be defined. " ) ;
// create and define new grouping object.
ne = new CAMFImporter_NodeElement_Instance ( mNodeElement_Cur ) ;
CAMFImporter_NodeElement_Instance & als = * ( ( CAMFImporter_NodeElement_Instance * ) ne ) ; // alias for convenience
als . ObjectID = objectid ;
// Check for child nodes
if ( ! mReader - > isEmptyElement ( ) ) {
bool read_flag [ 6 ] = { false , false , false , false , false , false } ;
als . Delta . Set ( 0 , 0 , 0 ) ;
als . Rotation . Set ( 0 , 0 , 0 ) ;
ParseHelper_Node_Enter ( ne ) ;
MACRO_NODECHECK_LOOPBEGIN ( " instance " ) ;
MACRO_NODECHECK_READCOMP_F ( " deltax " , read_flag [ 0 ] , als . Delta . x ) ;
MACRO_NODECHECK_READCOMP_F ( " deltay " , read_flag [ 1 ] , als . Delta . y ) ;
MACRO_NODECHECK_READCOMP_F ( " deltaz " , read_flag [ 2 ] , als . Delta . z ) ;
MACRO_NODECHECK_READCOMP_F ( " rx " , read_flag [ 3 ] , als . Rotation . x ) ;
MACRO_NODECHECK_READCOMP_F ( " ry " , read_flag [ 4 ] , als . Rotation . y ) ;
MACRO_NODECHECK_READCOMP_F ( " rz " , read_flag [ 5 ] , als . Rotation . z ) ;
MACRO_NODECHECK_LOOPEND ( " instance " ) ;
ParseHelper_Node_Exit ( ) ;
// also convert degrees to radians.
als . Rotation . x = AI_MATH_PI_F * als . Rotation . x / 180.0f ;
als . Rotation . y = AI_MATH_PI_F * als . Rotation . y / 180.0f ;
als . Rotation . z = AI_MATH_PI_F * als . Rotation . z / 180.0f ;
} // if(!mReader->isEmptyElement())
else {
mNodeElement_Cur - > Child . push_back ( ne ) ; // Add element to child list of current element
} // if(!mReader->isEmptyElement()) else
mNodeElement_List . push_back ( ne ) ; // and to node element list because its a new object in graph.
}
// <object
// id="" - A unique ObjectID for the new object being defined.
// >
// </object>
// An object definition.
// Multi elements - Yes.
// Parent element - <amf>.
void AMFImporter : : ParseNode_Object ( ) {
std : : string id ;
CAMFImporter_NodeElement * ne ( nullptr ) ;
// Read attributes for node <object>.
MACRO_ATTRREAD_LOOPBEG ;
MACRO_ATTRREAD_CHECK_RET ( " id " , id , mReader - > getAttributeValue ) ;
MACRO_ATTRREAD_LOOPEND ;
// create and if needed - define new geometry object.
ne = new CAMFImporter_NodeElement_Object ( mNodeElement_Cur ) ;
CAMFImporter_NodeElement_Object & als = * ( ( CAMFImporter_NodeElement_Object * ) ne ) ; // alias for convenience
if ( ! id . empty ( ) ) als . ID = id ;
// Check for child nodes
if ( ! mReader - > isEmptyElement ( ) ) {
bool col_read = false ;
ParseHelper_Node_Enter ( ne ) ;
MACRO_NODECHECK_LOOPBEGIN ( " object " ) ;
if ( XML_CheckNode_NameEqual ( " color " ) ) {
// Check if color already defined for object.
if ( col_read ) Throw_MoreThanOnceDefined ( " color " , " Only one color can be defined for <object>. " ) ;
// read data and set flag about it
ParseNode_Color ( ) ;
col_read = true ;
continue ;
}
if ( XML_CheckNode_NameEqual ( " mesh " ) ) {
ParseNode_Mesh ( ) ;
continue ;
}
if ( XML_CheckNode_NameEqual ( " metadata " ) ) {
ParseNode_Metadata ( ) ;
continue ;
}
MACRO_NODECHECK_LOOPEND ( " object " ) ;
ParseHelper_Node_Exit ( ) ;
} // if(!mReader->isEmptyElement())
else {
mNodeElement_Cur - > Child . push_back ( ne ) ; // Add element to child list of current element
} // if(!mReader->isEmptyElement()) else
mNodeElement_List . push_back ( ne ) ; // and to node element list because its a new object in graph.
}
// <metadata
// type="" - The type of the attribute.
// >
// </metadata>
// Specify additional information about an entity.
// Multi elements - Yes.
// Parent element - <amf>, <object>, <volume>, <material>, <vertex>.
//
// Reserved types are:
// "Name" - The alphanumeric label of the entity, to be used by the interpreter if interacting with the user.
// "Description" - A description of the content of the entity
// "URL" - A link to an external resource relating to the entity
// "Author" - Specifies the name(s) of the author(s) of the entity
// "Company" - Specifying the company generating the entity
// "CAD" - specifies the name of the originating CAD software and version
// "Revision" - specifies the revision of the entity
// "Tolerance" - specifies the desired manufacturing tolerance of the entity in entity's unit system
// "Volume" - specifies the total volume of the entity, in the entity's unit system, to be used for verification (object and volume only)
void AMFImporter : : ParseNode_Metadata ( ) {
std : : string type , value ;
CAMFImporter_NodeElement * ne ( nullptr ) ;
// read attribute
MACRO_ATTRREAD_LOOPBEG ;
MACRO_ATTRREAD_CHECK_RET ( " type " , type , mReader - > getAttributeValue ) ;
MACRO_ATTRREAD_LOOPEND ;
// and value of node.
value = mReader - > getNodeData ( ) ;
// Create node element and assign read data.
ne = new CAMFImporter_NodeElement_Metadata ( mNodeElement_Cur ) ;
( ( CAMFImporter_NodeElement_Metadata * ) ne ) - > Type = type ;
( ( CAMFImporter_NodeElement_Metadata * ) ne ) - > Value = value ;
mNodeElement_Cur - > Child . push_back ( ne ) ; // Add element to child list of current element
mNodeElement_List . push_back ( ne ) ; // and to node element list because its a new object in graph.
}
/*********************************************************************************************************************************************/
/******************************************************** Functions: BaseImporter set ********************************************************/
/*********************************************************************************************************************************************/
bool AMFImporter : : CanRead ( const std : : string & pFile , IOSystem * pIOHandler , bool pCheckSig ) const {
const std : : string extension = GetExtension ( pFile ) ;
if ( extension = = " amf " ) {
return true ;
}
if ( ! extension . length ( ) | | pCheckSig ) {
const char * tokens [ ] = { " <amf " } ;
return SearchFileHeaderForToken ( pIOHandler , pFile , tokens , 1 ) ;
}
return false ;
}
void AMFImporter : : GetExtensionList ( std : : set < std : : string > & pExtensionList ) {
pExtensionList . insert ( " amf " ) ;
}
const aiImporterDesc * AMFImporter : : GetInfo ( ) const {
return & Description ;
}
void AMFImporter : : InternReadFile ( const std : : string & pFile , aiScene * pScene , IOSystem * pIOHandler ) {
Clear ( ) ; // delete old graph.
ParseFile ( pFile , pIOHandler ) ;
Postprocess_BuildScene ( pScene ) ;
// scene graph is ready, exit.
}
} // namespace Assimp
# endif // !ASSIMP_BUILD_NO_AMF_IMPORTER