Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Read SMD and create DMX data
//
//=============================================================================
// Because we use STL
#pragma warning( disable: 4530 )
// Standard includes
#include <io.h>
#include <algorithm>
#include <deque>
#include <fstream>
#include <list>
#include <map>
#include <string>
// Valve includes
#include "movieobjects/dmeanimationlist.h"
#include "movieobjects/dmechannel.h"
#include "movieobjects/dmedag.h"
#include "movieobjects/dmemesh.h"
#include "movieobjects/dmefaceset.h"
#include "movieobjects/dmematerial.h"
#include "movieobjects/dmemodel.h"
#include "movieobjects/dmsmdserializer.h"
#include "filesystem.h"
#include "tier1/characterset.h"
#include "tier1/fmtstr.h"
#include "tier2/tier2.h"
#include "mathlib/mathlib.h"
// Last include
#include "tier0/memdbgon.h"
//=============================================================================
//
// CDmSmdSerializer
//
//=============================================================================
//-----------------------------------------------------------------------------
// Convert from SMD -> DME
//-----------------------------------------------------------------------------
bool CDmSmdSerializer::Unserialize(
CUtlBuffer &utlBuf,
const char * /* pszEncodingName */,
int /* nEncodingVersion */,
const char * /* pszSourceFormatName */,
int /* nSourceFormatVersion */,
DmFileId_t nDmFileId,
DmConflictResolution_t /* nDmConflictResolution */,
CDmElement **ppDmRoot )
{
if ( !ppDmRoot )
return false;
const char *pszFilename = g_pDataModel->GetFileName( nDmFileId );
if ( pszFilename )
{
char szFilename[ MAX_PATH ];
V_strncpy( szFilename, pszFilename, ARRAYSIZE( szFilename ) );
V_FixSlashes( szFilename );
*ppDmRoot = ReadSMD( utlBuf, nDmFileId, szFilename, NULL );
}
else
{
*ppDmRoot = ReadSMD( utlBuf, nDmFileId, "utlBuffer", NULL );
}
return *ppDmRoot != NULL;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
CDmElement *CDmSmdSerializer::ReadSMD(
const char *pszFilename,
CDmeMesh **ppDmeMeshCreated /* = NULL */ )
{
char szFilename[ MAX_PATH ];
V_strncpy( szFilename, pszFilename, ARRAYSIZE( szFilename ) );
V_FixSlashes( szFilename );
CUtlBuffer utlBuf( 0, 0, CUtlBuffer::TEXT_BUFFER );
if ( !g_pFullFileSystem->ReadFile( szFilename, NULL, utlBuf ) )
return NULL;
DmFileId_t nDmFileId = g_pDataModel->FindOrCreateFileId( pszFilename );
return ReadSMD( utlBuf, nDmFileId, szFilename, ppDmeMeshCreated );
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
void CDmSmdSerializer::SetUpAxis( CDmSmdSerializer::Axis_t nUpAxis )
{
m_nUpAxis = clamp( nUpAxis, X_AXIS, Z_AXIS );
switch ( m_nUpAxis )
{
case X_AXIS: // X Up
AngleMatrix( RadianEuler( -M_PI / 2.0, M_PI / 2.0, 0.0 ), m_mAdj );
MatrixInverseTranspose( m_mAdj, m_mAdjNormal );
break;
case Y_AXIS: // Y Up
SetIdentityMatrix( m_mAdj );
SetIdentityMatrix( m_mAdjNormal );
break;
case Z_AXIS:
default:
AngleMatrix( RadianEuler( -M_PI / 2.0, 0.0, 0.0 ), m_mAdj );
MatrixInverseTranspose( m_mAdj, m_mAdjNormal );
break;
}
}
//-----------------------------------------------------------------------------
// Tests whether the passed buffer is an all whitespace line or not
//-----------------------------------------------------------------------------
static bool ParserIsBlankLine( const char *pszBuf )
{
for ( const char *pChar = pszBuf; *pChar; ++pChar )
{
if ( !V_isspace( static_cast< unsigned char >( *pChar ) ) )
return false;
}
return true;
}
//-----------------------------------------------------------------------------
// Skips over whitespace
//-----------------------------------------------------------------------------
static const char *ParserSkipSpace( const char *pszBuf )
{
// Skip to first non-whitespace character
for ( ;; )
{
if ( !V_isspace( static_cast< unsigned char >( *pszBuf ) ) )
break;
++pszBuf;
}
return pszBuf;
}
//-----------------------------------------------------------------------------
// Returns true the specified buffer is a comment line
// meaning that it starts with // (with optional white space preceding the //)
//-----------------------------------------------------------------------------
static bool IsCommentLine( const char *pszBuf )
{
pszBuf = ParserSkipSpace( pszBuf );
if ( *pszBuf && *pszBuf == '/' && *( pszBuf + 1 ) == '/' )
{
return true;
}
return false;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static bool ParserHandleVersion( const char *pszBuf, int *pnVersion = NULL )
{
pszBuf = ParserSkipSpace( pszBuf );
if ( !( *pszBuf && V_strnicmp( pszBuf, "version", 7 ) == 0 ) )
return false;
if ( pnVersion )
{
*pnVersion = strtol( pszBuf + 7, NULL, 0 ); // Skip past "version"
}
return true;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static bool ParserHandleSectionStart( const char *pszBuf, const char *pszSectionId )
{
pszBuf = ParserSkipSpace( pszBuf );
if ( ! *pszBuf )
return false;
const int nCmd = V_stricmp( pszBuf, pszSectionId );
if ( !nCmd )
return true;
return false;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static bool ParserHandleTime( const char *pszBuf, int &nTime )
{
if ( sscanf( pszBuf, "time %d", &nTime ) == 1 )
return true;
return false;
}
//-----------------------------------------------------------------------------
// Strip trailing CR/NL
//-----------------------------------------------------------------------------
static void Chomp( char *pszBuf )
{
char *pChar = pszBuf + V_strlen( pszBuf ) - 1;
while ( pChar >= pszBuf && ( *pChar == '\n' || *pChar == '\r' ) )
{
*pChar = '\0';
}
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static void GetLine( CUtlBuffer &utlBuf, char *pszBuf, int nMaxLen )
{
utlBuf.GetLine( pszBuf, nMaxLen );
Chomp( pszBuf );
}
//=============================================================================
//
//=============================================================================
class CQcData
{
public:
CQcData()
: m_nUpAxis( CDmSmdSerializer::Z_AXIS )
, m_scale( 1.0f )
{}
bool ParseQc( const CUtlString &smdPath, const CUtlString &qcPath );
bool GetQcData( const CUtlString &smdPath );
CDmSmdSerializer::Axis_t m_nUpAxis;
float m_scale;
std::list< std::string > m_cdmaterials;
};
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static bool HandleQcHints(
const char *pBuf,
CQcData &qcData )
{
if ( !IsCommentLine( pBuf ) )
return false;
char key[ 512 ];
key[0] = '\0';
char val[ 512 ];
val[0] = '\0';
if ( sscanf( pBuf, "// %511s=%511s", key, val ) == 2 )
{
if ( Q_stricmp( key, "UPAXIS" ) == 0 )
{
if ( strpbrk( val, "xX" ) )
{
qcData.m_nUpAxis = CDmSmdSerializer::X_AXIS;
}
else if ( strpbrk( val, "yY" ) )
{
qcData.m_nUpAxis = CDmSmdSerializer::Y_AXIS;
}
else if ( strpbrk( val, "zZ" ) )
{
qcData.m_nUpAxis = CDmSmdSerializer::Z_AXIS;
}
}
}
key[ ARRAYSIZE(key) - 1 ] = '\0';
val[ ARRAYSIZE(val) - 1 ] = '\0';
return true;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static void Tokenize( CUtlVector< CUtlString > &tokens, const char *pszBuf )
{
tokens.RemoveAll();
CUtlString strBuf( pszBuf );
for ( char *pszToken = strtok( (char *)strBuf.Get(), " \t\n" ); pszToken; pszToken = strtok( NULL, " \t\n" ) )
{
tokens.AddToTail( pszToken );
}
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
void CDmSmdSerializer::ParserGetNodeName( const char *pszBuf, CUtlString &sName ) const
{
sName = ParserSkipSpace( pszBuf );
FixNodeName( sName );
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
bool CDmSmdSerializer::ParserHandleSkeletonLine(
const char *pszBuf,
CUtlString &sName,
int &nId,
int &nParentId ) const
{
const char *pszOrigBuf = pszBuf;
pszBuf = ParserSkipSpace( pszBuf );
char szTmpBuf[ 512 ];
if ( sscanf( pszBuf, "%d \"%[^\"]\" %d", &nId, szTmpBuf, &nParentId ) == 3 )
{
ParserGetNodeName( szTmpBuf, sName );
return true;
}
Warning( "Warning! Ignoring malformed skeleton line: %s\n", pszOrigBuf );
return false;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static CUtlString PathJoin( const char *pszStr1, const char *pszStr2 )
{
char szPath[MAX_PATH];
V_ComposeFileName( pszStr1, pszStr2, szPath, sizeof( szPath ) );
return CUtlString( szPath );
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
bool CQcData::ParseQc(
const CUtlString &smdPath,
const CUtlString &qcPath )
{
bool bRetVal = false;
if ( _access( qcPath.Get(), 04 ) == 0 )
{
try
{
std::string buf;
std::ifstream ifs( qcPath.Get() );
CUtlVector< CUtlString > tokens;
while ( std::getline( ifs, buf ) )
{
Tokenize( tokens, buf.c_str() );
if ( tokens.Count() < 1 )
continue;
if ( !V_stricmp( tokens[0], "$upaxis" ) )
{
if ( strchr( tokens[1].Get(), 'y' ) || strchr( tokens[1].Get(), 'Y' ) )
{
m_nUpAxis = CDmSmdSerializer::Y_AXIS;
}
else if ( strchr( tokens[1].Get(), 'x' ) || strchr( tokens[1].Get(), 'X' ) )
{
m_nUpAxis = CDmSmdSerializer::X_AXIS;
}
else
{
m_nUpAxis = CDmSmdSerializer::Z_AXIS;
}
}
else if ( !V_stricmp( tokens[0], "$scale" ) )
{
m_scale = strtod( tokens[1].Get(), NULL );
}
else if ( !V_stricmp( tokens[0], "$cdmaterials" ) )
{
m_cdmaterials.push_back( tokens[1].Get() );
}
}
bRetVal = true;
}
catch ( ... )
{
}
}
if ( m_cdmaterials.empty() )
{
// If m_cdmaterials is empty, then put the relative smd path onto the cdmaterials path
char szBuf0[MAX_PATH];
V_strncpy( szBuf0, smdPath.Get(), ARRAYSIZE( szBuf0 ) );
V_StripFilename( szBuf0 );
V_FixSlashes( szBuf0, '/' );
CUtlVector< char *, CUtlMemory< char *, int > > sPathArray;
V_SplitString( szBuf0, "/", sPathArray );
CUtlString sRelSmdPath;
bool bJoin = false;
for ( int i = 0; i < sPathArray.Count(); ++i )
{
if ( !bJoin && !V_stricmp( sPathArray[i], "models" ) )
{
bJoin = true;
}
if ( bJoin )
{
sRelSmdPath = PathJoin( sRelSmdPath.Get(), sPathArray[i] );
}
}
sRelSmdPath.FixSlashes( '/' );
m_cdmaterials.push_back( sRelSmdPath.Get() );
}
return bRetVal;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
bool CQcData::GetQcData(
const CUtlString &smdPath )
{
try
{
// Look for same thing named with a .qc extension
char szBuf0[MAX_PATH];
char szBuf1[MAX_PATH];
V_strncpy( szBuf0, smdPath.Get(), ARRAYSIZE( szBuf0 ) );
V_SetExtension( szBuf0, ".qc", ARRAYSIZE( szBuf0 ) );
if ( _access( szBuf0, 04 ) == 0 )
return ParseQc( smdPath, szBuf0 );
// Remove "_reference" if found
char *pszRef = V_stristr( szBuf0, "_reference.qc" );
if ( pszRef )
{
*pszRef = '\0';
V_SetExtension( szBuf0, ".qc", ARRAYSIZE( szBuf0 ) );
if ( _access( szBuf0, 04 ) == 0 )
return ParseQc( smdPath, szBuf0 );
}
else
{
// Add _reference
V_SetExtension( szBuf0, "", ARRAYSIZE( szBuf0 ) );
V_strcat( szBuf0, "_reference", ARRAYSIZE( szBuf0 ) );
V_SetExtension( szBuf0, ".qc", ARRAYSIZE( szBuf0 ) );
if ( _access( szBuf0, 04 ) == 0 )
return ParseQc( smdPath, szBuf0 );
}
// Look for any *.qc file in the same directory as the smd that contains the smd pathname
V_strncpy( szBuf0, smdPath.Get(), ARRAYSIZE( szBuf0 ) );
V_FixSlashes( szBuf0 );
V_FileBase( szBuf0, szBuf1, ARRAYSIZE( szBuf1 ) );
CUtlString sFileBase0( "\"" );
sFileBase0 += szBuf1;
sFileBase0 += "\"";
V_SetExtension( szBuf1, ".smd", ARRAYSIZE( szBuf1 ) );
CUtlString sFileBase1( "\"" );
sFileBase1 += szBuf1;
sFileBase1 += "\"";
V_ExtractFilePath( szBuf0, szBuf1, ARRAYSIZE( szBuf1 ) );
CUtlString sFilePath = szBuf1;
if ( sFileBase0.Length() > 0 && sFilePath.Length() > 0 )
{
struct _finddata_t qcFile;
long hFile;
CUtlVector< CUtlString > tokens;
/* Find first .qc file in current directory */
CUtlString sQcGlob = sFilePath;
sQcGlob += "*.qc";
if ( ( hFile = _findfirst( sQcGlob.Get(), &qcFile ) ) != -1L )
{
/* Find the rest of the .qc files */
do {
CUtlString sQcFile = sFilePath;
sQcFile += qcFile.name;
std::ifstream ifs( sQcFile.Get() );
std::string buf;
while ( std::getline( ifs, buf ) )
{
if ( V_stristr( buf.c_str(), sFileBase0.Get() ) || V_stristr( buf.c_str(), sFileBase1.Get() ) )
{
_findclose( hFile );
return ParseQc( smdPath, sQcFile );
}
}
} while( _findnext( hFile, &qcFile ) == 0 );
_findclose( hFile );
}
}
}
catch ( const std::exception &e )
{
Error( "Exception: %s\n", e.what() );
}
return false;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
#define MAX_WEIGHTS_PER_VERTEX 3
//=============================================================================
//
//=============================================================================
class CVertexWeight
{
public:
int m_nBoneIndex;
float m_flWeight;
CVertexWeight()
: m_nBoneIndex( -1 )
, m_flWeight( 0.0f )
{}
inline void Reset()
{
m_nBoneIndex = -1;
m_flWeight = 0.0f;
}
inline bool operator==( const CVertexWeight &rhs ) const
{
return m_nBoneIndex == rhs.m_nBoneIndex && m_flWeight == rhs.m_flWeight;
}
inline bool operator!=( const CVertexWeight &rhs ) const
{
return m_nBoneIndex != rhs.m_nBoneIndex || m_flWeight != rhs.m_flWeight;
}
};
//=============================================================================
//
//=============================================================================
class CVertex
{
public:
Vector m_vPosition;
Vector m_vNormal;
Vector2D m_vUV;
uint m_nWeights;
CVertexWeight m_vertexWeights[ MAX_WEIGHTS_PER_VERTEX ];
CVertex()
{
Reset();
}
inline bool operator==( const CVertex &rhs ) const
{
if ( m_vPosition != rhs.m_vPosition ||
m_vNormal != rhs.m_vNormal ||
m_vUV != rhs.m_vUV ||
m_nWeights != rhs.m_nWeights )
return false;
for ( uint i = 0; i != m_nWeights; ++i )
{
if ( m_vertexWeights[ i ] != rhs.m_vertexWeights[ i ] )
return false;
}
return true;
}
inline void Reset()
{
m_nWeights = 0;
for ( int i = 0; i < ARRAYSIZE( m_vertexWeights ); ++i )
{
m_vertexWeights[i].Reset();
}
}
};
//=============================================================================
//
//=============================================================================
class CTriangle
{
public:
uint m_nVertices;
CVertex m_vertices[ 3 ];
CTriangle()
{
Reset();
}
bool Valid() const;
inline void Reset()
{
m_nVertices = 0;
m_vertices[ 0U ].Reset();
m_vertices[ 1U ].Reset();
m_vertices[ 2U ].Reset();
}
};
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
bool CTriangle::Valid() const
{
// A triangle is valid it it has three vertices and all three vertices are unique
if ( m_nVertices != 3U )
return false;
if ( m_vertices[0] == m_vertices[1] )
return false;
if ( m_vertices[1] == m_vertices[2] )
return false;
if ( m_vertices[2] == m_vertices[0] )
return false;
return true;
}
//=============================================================================
//
//=============================================================================
class CShadingGroup
{
public:
std::string m_materialPath;
std::map< int, std::deque< int > > m_componentListMap;
};
//=============================================================================
//
//=============================================================================
enum ParserState_t
{
kUnknown,
kPreamble,
kGeneral,
kNodes,
kSkeleton,
kTriangles
};
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static bool ParserAddJoint(
CDmSmdSerializer::SmdJointMap_t &smdJointMap,
int nId,
const char *pszName,
int nParentId,
const char *pszFilename,
int nLineNumber )
{
if ( nId < 0 )
{
Error( "Error! %s(%d) : node error : invalid node id %d, must be >= 0: Line '%d \"%s\" %d'\n",
pszFilename, nLineNumber, nId, nId, pszName, nParentId );
return false;
}
if ( smdJointMap.IsValidIndex( smdJointMap.Find( nId ) ) )
{
Error( "Error! %s(%d) : node error : node id %d already defined\n",
pszFilename, nLineNumber, nId );
return false;
}
CDmSmdSerializer::SmdJoint_t &smdJoint = smdJointMap.Element( smdJointMap.Insert( nId ) );
smdJoint.m_nId = nId;
smdJoint.m_sName = pszName;
smdJoint.m_nParentId = MAX( -1, nParentId );
smdJoint.m_nLineNumber = nLineNumber;
return true;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static bool ParserCreateJoint(
const CDmSmdSerializer::SmdJointMap_t &smdJointMap,
CDmeModel *pDmeModel,
CDmeChannelsClip *pDmeChannelsClip,
CDmSmdSerializer::SmdJoint_t *pSmdJoint,
const char *pszFilename )
{
const CUtlString &sName = pSmdJoint->m_sName;
const int nId = pSmdJoint->m_nId;
const int nParentId = pSmdJoint->m_nParentId;
const int nLineNumber = pSmdJoint->m_nLineNumber;
CDmeJoint *pDmeJoint = CreateElement< CDmeJoint >( sName.Get(), pDmeModel->GetFileId() );
if ( !pDmeJoint )
{
Error( "%s(%d) : node error : can't create joint %d(%s)\n",
pszFilename, nLineNumber, nId, sName.Get() );
return false;
}
if ( nParentId < 0 )
{
if ( !pDmeModel )
{
Error( "%s(%d) : node error : No DmeModel passed for root joint %d(%s)\n",
pszFilename, nLineNumber, nId, sName.Get() );
DestroyElement( pDmeJoint );
return false;
}
pDmeModel->AddChild( pDmeJoint );
CDmAttribute *pRootJointAttr = pDmeJoint->AddAttribute( "__rootJoint", AT_BOOL );
pRootJointAttr->AddFlag( FATTRIB_DONTSAVE );
pRootJointAttr->SetValue( true );
}
else
{
if ( nParentId == nId )
{
Error( "%s(%d) : node error : joint %d(%s) is its own parent\n",
pszFilename, nLineNumber, nId, sName.Get() );
DestroyElement( pDmeJoint );
return false;
}
const int nParentIdIndex = smdJointMap.Find( nParentId );
if ( !smdJointMap.IsValidIndex( nParentIdIndex ) )
{
Error( "%s(%d) : node error : joint %d(%s) has invalid parentId (%d)\n",
pszFilename, nLineNumber, nId, sName.Get(), nParentId );
DestroyElement( pDmeJoint );
return false;
}
CDmeDag *pDmeDagParent = smdJointMap.Element( nParentIdIndex ).m_pDmeDag;
if ( pDmeDagParent )
{
pDmeDagParent->AddChild( pDmeJoint );
}
else
{
Error( "%s(%d) : node error : joint %d(%s) has invalid parentId (%d)\n",
pszFilename, nLineNumber, nId, sName.Get(), nParentId );
}
}
if ( pDmeChannelsClip )
{
CDmeTransform *pDmeTransform = pDmeJoint->GetTransform();
CDmeChannel *pDmePosChannel = CreateElement< CDmeChannel >( CFmtStr( "%s_p", pDmeTransform->GetName() ).Access(), pDmeChannelsClip->GetFileId() );
pDmePosChannel->SetMode( CM_PLAY );
pDmePosChannel->SetOutput( pDmeTransform, "position" );
CDmeVector3Log *pDmePosLog = pDmePosChannel->CreateLog< Vector >();
pDmePosLog->SetValueThreshold( 1.0e-6 );
pDmeChannelsClip->m_Channels.AddToTail( pDmePosChannel );
CDmAttribute *pPosLogAttr = pDmeJoint->AddAttribute( "__posLog", AT_ELEMENT );
pPosLogAttr->AddFlag( FATTRIB_DONTSAVE );
pPosLogAttr->SetValue( pDmePosLog );
CDmeChannel *pDmeRotChannel = CreateElement< CDmeChannel >( CFmtStr( "%s_o", pDmeTransform->GetName() ).Access(), pDmeChannelsClip->GetFileId() );
pDmeRotChannel->SetMode( CM_PLAY );
pDmeRotChannel->SetOutput( pDmeTransform, "orientation" );
CDmeQuaternionLog *pDmeRotLog = pDmeRotChannel->CreateLog< Quaternion >();
pDmeRotLog->SetValueThreshold( 1.0e-6 );
pDmeChannelsClip->m_Channels.AddToTail( pDmeRotChannel );
CDmAttribute *pRotLogAttr = pDmeJoint->AddAttribute( "__rotLog", AT_ELEMENT );
pRotLogAttr->AddFlag( FATTRIB_DONTSAVE );
pRotLogAttr->SetValue( pDmeRotLog );
}
pSmdJoint->m_pDmeDag = pDmeJoint;
pDmeModel->AddJoint( pDmeJoint );
return true;
}
//-----------------------------------------------------------------------------
// Used by ParserAddJoints, sorts joints by parent index
//-----------------------------------------------------------------------------
static bool SmdJointLessFunc( const CDmSmdSerializer::SmdJoint_t *pLhs, const CDmSmdSerializer::SmdJoint_t *pRhs )
{
// try to preserve joints without parents in their original order as much as possible
if ( pLhs->m_nParentId < 0 )
return pLhs->m_nId < pRhs->m_nId;
return pLhs->m_nParentId < pRhs->m_nParentId;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static void ParserCreateJoints(
CDmSmdSerializer::SmdJointMap_t &smdJointMap,
CDmeModel *pDmeModel,
CDmeChannelsClip *pDmeChannelsClip,
const char *pszFilename )
{
// Sort the joints in order of parent, pointers only temporary and no elements
// added/removed from map while pointers exist, so pointers are stable
CUtlVector< CDmSmdSerializer::SmdJoint_t * > smdJointList;
FOR_EACH_MAP_FAST( smdJointMap, nSmdJointMapIndex )
{
smdJointList.AddToTail( &smdJointMap.Element( nSmdJointMapIndex ) );
}
std::stable_sort( smdJointList.Base(), smdJointList.Base() + smdJointList.Count(), SmdJointLessFunc );
for ( int i = 0; i < smdJointList.Count(); ++i )
{
CDmSmdSerializer::SmdJoint_t *pSmdJoint = smdJointList[i];
pSmdJoint->m_nActualId = i;
ParserCreateJoint( smdJointMap, pDmeModel, pDmeChannelsClip, pSmdJoint, pszFilename );
}
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
void CDmSmdSerializer::ParserSetJoint(
const SmdJointMap_t &smdJointMap,
int nFrame,
int nId,
const Vector &vPosition,
const RadianEuler &eRadianEulerXYZ,
const char *pszFilename,
int nLineNumber )
{
const SmdJointMap_t::IndexType_t nIdIndex = smdJointMap.Find( nId );
if ( !smdJointMap.IsValidIndex( nIdIndex ) )
{
Error( "%s(%d) : skeleton error : can't find joint %d\n",
pszFilename, nLineNumber, nId );
return;
}
CDmeDag *pDmeDag = smdJointMap.Element( nIdIndex ).m_pDmeDag;
if ( !pDmeDag )
{
Error( "%s(%d) : skeleton error : no dmedag created for can't find joint %d (%s)\n",
pszFilename, nLineNumber, nId, smdJointMap.Element( nIdIndex ).m_sName.Get() );
return;
}
const Quaternion qOrientation = eRadianEulerXYZ;
if ( pDmeDag->GetValue( "__rootJoint", false ) && GetUpAxis() != CDmSmdSerializer::Y_AXIS )
{
matrix3x4_t mPre;
matrix3x4_t mPost;
AngleMatrix( qOrientation, vPosition, mPre );
ConcatTransforms( m_mAdj, mPre, mPost );
pDmeDag->GetTransform()->SetTransform( mPost );
}
else
{
pDmeDag->GetTransform()->SetPosition( vPosition );
pDmeDag->GetTransform()->SetOrientation( qOrientation );
}
if ( m_bOptAnimation )
{
const DmeTime_t tCurrent( static_cast< float >( nFrame ), DmeFramerate_t( m_flFrameRate ) );
CDmeTransform *pDmeTransform = pDmeDag->GetTransform();
CDmeVector3Log *pDmePosLog = pDmeDag->GetValueElement< CDmeVector3Log >( "__posLog" );
pDmePosLog->SetKey( tCurrent, pDmeTransform->GetPosition() );
CDmeQuaternionLog *pDmeRotLog = pDmeDag->GetValueElement< CDmeQuaternionLog >( "__rotLog" );
pDmeRotLog->SetKey( tCurrent, pDmeTransform->GetOrientation() );
}
}
//-----------------------------------------------------------------------------
// Returns -1 if invalid
//-----------------------------------------------------------------------------
static int GetActualId( const CDmSmdSerializer::SmdJointMap_t &smdJointMap, int nId )
{
const CDmSmdSerializer::SmdJointMap_t::IndexType_t nIdIndex = smdJointMap.Find( nId );
if ( !smdJointMap.IsValidIndex( nIdIndex ) )
{
Error( "Error! Invalid node id %d looked up\n", nId );
return -1;
}
return smdJointMap.Element( nIdIndex ).m_nActualId;
}
//-----------------------------------------------------------------------------
// Used by HandleVertexWeights, sorts vertex weights by weight
//-----------------------------------------------------------------------------
static int VertexWeightLessFunc( const void *pLhs, const void *pRhs )
{
const CVertexWeight *pVertexWeightL = reinterpret_cast< const CVertexWeight * >( pLhs );
const CVertexWeight *pVertexWeightR = reinterpret_cast< const CVertexWeight * >( pRhs );
if ( pVertexWeightL->m_nBoneIndex < 0 )
{
if ( pVertexWeightR->m_nBoneIndex < 0 )
{
return 0;
}
else
{
return 1;
}
}
else if ( pVertexWeightR->m_nBoneIndex < 0 )
{
return -1;
}
if ( pVertexWeightL->m_flWeight > pVertexWeightR->m_flWeight )
{
return -1;
}
else if ( pVertexWeightL->m_flWeight < pVertexWeightR->m_flWeight )
{
return 1;
}
return 0;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static void HandleVertexWeights(
const CDmSmdSerializer::SmdJointMap_t &smdJointMap,
int nFallbackBoneIndexId,
CVertex &vertex,
const char *pszLine,
const char *pszFilename,
int nLineNumber )
{
for ( int i = 0; i < ARRAYSIZE( vertex.m_vertexWeights ); ++i )
{
vertex.m_vertexWeights[i].Reset();
}
CUtlVector< CVertexWeight > tmpVertexWeights;
CUtlVector< CUtlString > tokens;
Tokenize( tokens, pszLine );
const float flEps = 1.0e-6;
uint nTokenEnd = tokens.Count();
if ( nTokenEnd > 10 )
{
int nId = -1;
float flWeight = 0.0f;
for ( uint i = 10; i < nTokenEnd; ++i )
{
nId = strtol( tokens[ i ].Get(), NULL, 0 );
++i;
flWeight = strtod( tokens[ i ].Get(), NULL );
if ( nId < 0 || flWeight < flEps )
continue;
const int nActualId = GetActualId( smdJointMap, nId );
if ( nActualId < 0 )
{
Error( "%s(%d) : triangle error : ignoring unknown joint id(%d) with actual id(%d) for vertex weight\n",
pszFilename, nLineNumber, nId, nActualId );
continue;
}
CVertexWeight &tmpVertexWeight = tmpVertexWeights[ tmpVertexWeights.AddToTail() ];
tmpVertexWeight.m_nBoneIndex = nActualId;
tmpVertexWeight.m_flWeight = flWeight;
}
// Sort vertex weights inversely by weight
qsort( tmpVertexWeights.Base(), tmpVertexWeights.Count(), sizeof( CVertexWeight ), VertexWeightLessFunc );
// Take at most the top ARRAYSIZE( vertex.m_vertexWeights ) from tmpVertexWeights
// Figure out actual weight count and total weight
float flTotalWeight = 0.0f;
vertex.m_nWeights = 0;
for ( int i = 0; i < tmpVertexWeights.Count() && i < ARRAYSIZE( vertex.m_vertexWeights ); ++i )
{
CVertexWeight &vertexWeight( vertex.m_vertexWeights[ i ] );
vertexWeight = tmpVertexWeights[i];
flTotalWeight += vertexWeight.m_flWeight;
vertex.m_nWeights += 1;
}
// If there are valid user specified weights then renormalize
if ( vertex.m_nWeights > 0 && flTotalWeight > flEps )
{
for ( uint i = 0; i != ARRAYSIZE( vertex.m_vertexWeights ); ++i )
{
CVertexWeight &vertexWeight( vertex.m_vertexWeights[ i ] );
if ( vertexWeight.m_nBoneIndex >= 0 )
{
vertexWeight.m_flWeight /= flTotalWeight;
}
}
}
else
{
// No valid user weights, assign to fallback bone with weight of 1
vertex.m_vertexWeights[ 0 ].m_nBoneIndex = GetActualId( smdJointMap, nFallbackBoneIndexId );
if ( vertex.m_vertexWeights[0].m_nBoneIndex < 0 )
{
// Vertex is not weighted, can't find fallback bone, this is invalid
vertex.m_nWeights = 0;
vertex.m_vertexWeights[0].m_nBoneIndex = -1;
vertex.m_vertexWeights[0].m_flWeight = 0.0f;
}
else
{
vertex.m_nWeights = 1;
vertex.m_vertexWeights[0].m_flWeight = 1.0f;
}
// Assign rest of weights to -1, 0.0f
for ( uint i = 1; i < ARRAYSIZE( vertex.m_vertexWeights ); ++i )
{
vertex.m_vertexWeights[i].m_nBoneIndex = -1;
vertex.m_vertexWeights[i].m_flWeight = 0.0f;
}
}
}
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static CDmeMesh *CreateDmeMesh(
CDmeModel *pDmeModel,
const char *pszFilename,
int nLineNumber )
{
char szFileBase[MAX_PATH];
szFileBase[0] = '\0';
const char *pszMeshName = "mesh";
if ( pszFilename )
{
V_FileBase( pszFilename, szFileBase, ARRAYSIZE( szFileBase ) );
if ( V_strlen( szFileBase ) > 0 )
{
pszMeshName = szFileBase;
}
}
CDmeDag *pDmeDag = CreateElement< CDmeDag >( pszMeshName, pDmeModel->GetFileId() );
if ( !pDmeDag )
return NULL;
pDmeModel->AddChild( pDmeDag );
CUtlString sMeshName = pDmeDag->GetName();
sMeshName += "Shape";
CDmeMesh *pDmeMesh = CreateElement< CDmeMesh >( sMeshName.Get(), pDmeDag->GetFileId() );
if ( !pDmeMesh )
return NULL;
CDmeVertexData *pDmeVertexData = pDmeMesh->FindOrCreateBaseState( "bind" );
pDmeMesh->SetCurrentBaseState( "bind" );
pDmeVertexData->FlipVCoordinate( true );
pDmeVertexData->CreateField( CDmeVertexData::FIELD_POSITION );
pDmeVertexData->CreateField( CDmeVertexData::FIELD_NORMAL );
pDmeVertexData->CreateField( CDmeVertexData::FIELD_TEXCOORD );
FieldIndex_t nJointWeightField;
FieldIndex_t nJointIndexField;
pDmeVertexData->CreateJointWeightsAndIndices( MAX_WEIGHTS_PER_VERTEX, &nJointWeightField, &nJointIndexField );
pDmeDag->SetShape( pDmeMesh );
pDmeVertexData->Resolve();
pDmeMesh->Resolve();
pDmeDag->Resolve();
return pDmeMesh;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static CDmeFaceSet *FindOrCreateFaceSet(
CDmeMesh *pDmeMesh,
const CUtlString &sMaterial,
const char *pszFilename,
int nLineNumber )
{
// Could cache in a hashed map or something...
for ( int i = 0; i < pDmeMesh->FaceSetCount(); ++i )
{
CDmeFaceSet *pDmeFaceSet = pDmeMesh->GetFaceSet( i );
if ( !pDmeFaceSet )
continue;
CDmeMaterial *pDmeMaterial = pDmeFaceSet->GetMaterial();
if ( !pDmeMaterial )
continue;
if ( !V_strcmp( pDmeMaterial->GetMaterialName(), sMaterial.Get() ) )
return pDmeFaceSet;
}
char szFaceSetName[ MAX_PATH ];
V_FileBase( sMaterial.Get(), szFaceSetName, ARRAYSIZE( szFaceSetName ) );
CDmeFaceSet *pDmeFaceSet = CreateElement< CDmeFaceSet >( szFaceSetName, pDmeMesh->GetFileId() );
Assert( pDmeFaceSet );
CDmeMaterial *pDmeMaterial = CreateElement< CDmeMaterial >( szFaceSetName, pDmeMesh->GetFileId() );
Assert( pDmeMaterial );
pDmeMaterial->SetMaterial( sMaterial.Get() );
pDmeFaceSet->SetMaterial( pDmeMaterial );
pDmeMesh->AddFaceSet( pDmeFaceSet );
return pDmeFaceSet;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static void CreatePolygon(
CDmeMesh *pDmeMesh,
const CUtlString &sMaterial,
CTriangle &triangle,
const char *pszFilename,
int nLineNumber )
{
if ( !triangle.Valid() || !pDmeMesh )
return;
CDmeVertexData *pDmeVertexData = pDmeMesh->GetBindBaseState();
Assert( pDmeVertexData );
FieldIndex_t nPositionField = pDmeVertexData->FindFieldIndex( CDmeVertexData::FIELD_POSITION );
CDmrArray< Vector > positionData = pDmeVertexData->GetVertexData( nPositionField );
FieldIndex_t nNormalField = pDmeVertexData->FindFieldIndex( CDmeVertexData::FIELD_NORMAL );
CDmrArray< Vector > normalData = pDmeVertexData->GetVertexData( nNormalField );
FieldIndex_t nUvField = pDmeVertexData->FindFieldIndex( CDmeVertexData::FIELD_TEXCOORD );
CDmrArray< Vector2D > uvData = pDmeVertexData->GetVertexData( nUvField );
FieldIndex_t nJointWeightField = pDmeVertexData->FindFieldIndex( CDmeVertexData::FIELD_JOINT_WEIGHTS );
CDmrArray< float > jointWeightData = pDmeVertexData->GetVertexData( nJointWeightField );
FieldIndex_t nJointIndexField = pDmeVertexData->FindFieldIndex( CDmeVertexData::FIELD_JOINT_INDICES );
CDmrArray< int > jointIndexData = pDmeVertexData->GetVertexData( nJointIndexField );
CDmeFaceSet *pDmeFaceSet = FindOrCreateFaceSet( pDmeMesh, sMaterial, pszFilename, nLineNumber );
if ( !pDmeFaceSet )
{
Error( "%s(%d) : mesh error : couldn't find or create DmeFace set for material \"%s\" on mesh \"%s\"\n",
pszFilename, nLineNumber, sMaterial.Get(), pDmeMesh->GetName() );
return;
}
for ( uint i = 0; i < 3; ++i )
{
const int nNewVertexIndex = pDmeVertexData->AddVertexIndices( 1 );
CVertex &cVertex = triangle.m_vertices[i];
{
// TODO: Make two positions if they are skinned differently
int nPositionIndex = positionData.Find( cVertex.m_vPosition );
if ( !positionData.IsValidIndex( nPositionIndex ) )
{
nPositionIndex = positionData.AddToTail( cVertex.m_vPosition );
for ( int j = 0; j < ARRAYSIZE( cVertex.m_vertexWeights ); ++j )
{
jointWeightData.AddToTail( cVertex.m_vertexWeights[j].m_flWeight );
jointIndexData.AddToTail( cVertex.m_vertexWeights[j].m_nBoneIndex );
}
}
pDmeVertexData->SetVertexIndices( nPositionField, nNewVertexIndex, 1, &nPositionIndex );
const int nFaceSetIndex = pDmeFaceSet->AddIndices( 1 );
pDmeFaceSet->SetIndices( nFaceSetIndex, 1, const_cast< int * >( &nNewVertexIndex ) );
}
{
int nNormalIndex = normalData.Find( cVertex.m_vNormal );
if ( !normalData.IsValidIndex( nNormalIndex ) )
{
nNormalIndex = normalData.AddToTail( cVertex.m_vNormal );
}
pDmeVertexData->SetVertexIndices( nNormalField, nNewVertexIndex, 1, &nNormalIndex );
}
{
int nUvIndex = uvData.Find( cVertex.m_vUV );
if ( !uvData.IsValidIndex( nUvIndex ) )
{
nUvIndex = uvData.AddToTail( cVertex.m_vUV );
}
pDmeVertexData->SetVertexIndices( nUvField, nNewVertexIndex, 1, &nUvIndex );
}
}
static const int nFaceDelimiter = -1;
const int nFaceSetIndex = pDmeFaceSet->AddIndices( 1 );
pDmeFaceSet->SetIndices( nFaceSetIndex, 1, const_cast< int * >( &nFaceDelimiter ) );
triangle.Reset();
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
static CDmeFaceSet *FindOrAddFaceSet(
CDmeMesh *pDmeMesh,
CUtlMap< CUtlString, CDmeFaceSet * > &faceListMap,
const char *pszMaterialPath )
{
CUtlMap< CUtlString, CDmeFaceSet * >::IndexType_t nIndex = faceListMap.Find( CUtlString( pszMaterialPath ) );
if ( faceListMap.IsValidIndex( nIndex ) )
return faceListMap.Element( nIndex );
CDmeFaceSet *pDmeFaceSet = CreateElement< CDmeFaceSet >( pszMaterialPath, pDmeMesh->GetFileId() );
CDmeMaterial *pDmeMaterial = CreateElement< CDmeMaterial >( pszMaterialPath, pDmeMesh->GetFileId() );
Assert( pDmeFaceSet && pDmeMaterial );
pDmeMaterial->SetMaterial( pszMaterialPath );
pDmeMesh->AddFaceSet( pDmeFaceSet );
return faceListMap.Element( faceListMap.Insert( CUtlString( pszMaterialPath ), pDmeFaceSet ) );
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
CDmeChannelsClip *FindOrCreateChannelsClip( CDmElement *pDmeRoot, const char *pszAnimationName )
{
CDmeAnimationList *pDmeAnimationList = pDmeRoot->GetValueElement< CDmeAnimationList >( "animationList" );
CDmeChannelsClip *pDmeChannelsClip = NULL;
if ( pDmeAnimationList )
{
pDmeChannelsClip = pDmeAnimationList->GetAnimation( 0 );
}
else
{
CDmeModel *pDmeModel = pDmeRoot->GetValueElement< CDmeModel >( "skeleton" );
pDmeAnimationList = CreateElement< CDmeAnimationList >( pszAnimationName, pDmeRoot->GetFileId() );
pDmeChannelsClip = CreateElement< CDmeChannelsClip >( pszAnimationName, pDmeRoot->GetFileId() );
pDmeAnimationList->AddAnimation( pDmeChannelsClip );
pDmeRoot->SetValue( "animationList", pDmeAnimationList );
pDmeModel->SetValue( "animationList", pDmeAnimationList );
}
return pDmeChannelsClip;
}
//-----------------------------------------------------------------------------
// Common function both ReadSMD & Unserialize can call
//-----------------------------------------------------------------------------
CDmElement *CDmSmdSerializer::ReadSMD(
CUtlBuffer &utlBuf,
DmFileId_t nDmFileId,
const char *pszFilename,
CDmeMesh **ppDmeMeshCreated )
{
CDmElement *pDmeRoot = CreateElement< CDmElement >( "root", nDmFileId );
CDmeModel *pDmeModel = CreateElement< CDmeModel >( "model", nDmFileId );
char szAnimationName[ MAX_PATH ] = "";
if ( pszFilename )
{
V_FileBase( pszFilename, szAnimationName, ARRAYSIZE( szAnimationName ) );
}
else
{
pszFilename = "unknown";
}
if ( V_strlen( szAnimationName ) > 0 )
{
pDmeModel->SetName( szAnimationName );
}
else
{
V_strcpy_safe( szAnimationName, "anim" );
}
pDmeRoot->SetValue( "skeleton", pDmeModel );
if ( !m_bOptAnimation )
{
// Don't set root.model if animation only, studiomdl can't handle it
pDmeRoot->SetValue( "model", pDmeModel );
}
SmdJointMap_t smdJointMap( CDefOps< int >::LessFunc );
CUtlString sMaterial;
CTriangle triangle;
uint nLineNumber = 0;
uint nBadPreambleCount = 0;
ParserState_t nParserState = kPreamble;
int nFrame = 0;
CDmeChannelsClip *pDmeChannelsClip = NULL;
if ( m_bOptAnimation )
{
pDmeChannelsClip = FindOrCreateChannelsClip( pDmeRoot, szAnimationName );
}
bool bStartTimeSet = false;
CQcData qcData;
CDmeMesh *pDmeMesh = NULL;
char szLine[ 4096 ];
while ( utlBuf.IsValid() )
{
GetLine( utlBuf, szLine, ARRAYSIZE( szLine ) );
++nLineNumber;
const char *pszLine = ParserSkipSpace( szLine );
if ( ParserIsBlankLine( pszLine ) )
continue;
if ( nParserState == kPreamble )
{
if ( HandleQcHints( pszLine, qcData ) )
continue;
if ( ParserHandleVersion( pszLine ) )
{
if ( qcData.m_nUpAxis != m_nUpAxis )
{
Warning( "Importer UpAxis (%d) is different from UpAxis in SMD data (%d), using value found in SMD/QC\n", m_nUpAxis, qcData.m_nUpAxis );
}
SetUpAxis( qcData.m_nUpAxis );
nParserState = kGeneral;
continue;
}
Error( "%s(%d) : preamble error : expecting comment: \"%s\"\n",
pszFilename, nLineNumber, szLine );
++nBadPreambleCount;
if ( nBadPreambleCount > 10 )
{
Error( "%s(%d) : preamble error : too many errors, not an SMD file, aborting\n",
pszFilename, nLineNumber );
break;
}
}
else if ( nParserState == kGeneral )
{
if ( ParserHandleSectionStart( pszLine, "nodes" ) )
{
nParserState = kNodes;
}
else if ( ParserHandleSectionStart( pszLine, "skeleton" ) )
{
nParserState = kSkeleton;
}
else if ( ParserHandleSectionStart( pszLine, "triangles" ) )
{
nParserState = kTriangles;
}
}
else if ( nParserState == kNodes )
{
if ( ParserHandleSectionStart( pszLine, "end" ) )
{
ParserCreateJoints( smdJointMap, pDmeModel, pDmeChannelsClip, pszFilename );
nParserState = kGeneral;
continue;
}
CUtlString sName;
int nId;
int nParentId;
if ( !m_bOptImportSkeleton || !ParserHandleSkeletonLine( pszLine, sName, nId, nParentId ) )
continue;
if ( !ParserAddJoint( smdJointMap, nId, sName, nParentId, pszFilename, nLineNumber ) )
continue;
}
else if ( nParserState == kSkeleton )
{
if ( ParserHandleSectionStart( pszLine, "end" ) )
{
nParserState = kGeneral;
continue;
}
if ( m_bOptAnimation && ParserHandleTime( pszLine, nFrame ) )
{
if ( !bStartTimeSet )
{
pDmeChannelsClip->SetStartTime( DmeTime_t( static_cast< float >( nFrame ), DmeFramerate_t( m_flFrameRate ) ) );
bStartTimeSet = true;
}
continue;
}
int nId;
Vector vPosition;
RadianEuler eRadianEulerXYZ;
if ( sscanf( pszLine, "%d %f %f %f %f %f %f", &nId, &vPosition.x, &vPosition.y, &vPosition.z, &eRadianEulerXYZ.x, &eRadianEulerXYZ.y, &eRadianEulerXYZ.z ) == 7 )
{
if ( !m_bOptImportSkeleton )
continue;
ParserSetJoint( smdJointMap, nFrame, nId, vPosition, eRadianEulerXYZ, pszFilename, nLineNumber );
}
}
else if ( nParserState == kTriangles )
{
if ( ParserHandleSectionStart( pszLine, "end" ) )
{
triangle.Reset();
nParserState = kGeneral;
continue;
}
int nFallbackSkinJoint;
Vector vPosition;
Vector vNormal;
Vector2D vUV;
char szShadingGroup[ ARRAYSIZE( szLine ) ];
if ( sscanf( pszLine, "%d %f %f %f %f %f %f %f %f",
&nFallbackSkinJoint,
&vPosition.x, &vPosition.y, &vPosition.z,
&vNormal.x, &vNormal.y, &vNormal.z, &vUV.x, &vUV.y ) == 9 )
{
if ( triangle.m_nVertices >= 3 )
{
Error( "%s(%d) : triangle error : Too many vertices in triangle\n",
pszFilename, nLineNumber );
continue;
}
CVertex &vertex( triangle.m_vertices[ triangle.m_nVertices++ ] );
vertex.m_vUV = vUV;
if ( GetUpAxis() != CDmSmdSerializer::Y_AXIS )
{
VectorTransform( vPosition, m_mAdj, vertex.m_vPosition );
VectorTransform( vNormal, m_mAdjNormal, vertex.m_vNormal );
}
else
{
vertex.m_vPosition = vPosition;
vertex.m_vNormal = vNormal;
}
if ( m_bOptImportSkeleton )
{
HandleVertexWeights( smdJointMap, nFallbackSkinJoint, vertex, pszLine, pszFilename, nLineNumber );
}
if ( !pDmeMesh )
{
pDmeMesh = CreateDmeMesh( pDmeModel, pszFilename, nLineNumber );
if ( !pDmeMesh )
{
Error( "%s(%d) : Couldn't create DmeMesh\n",
pszFilename, nLineNumber );
break;
}
}
CreatePolygon( pDmeMesh, sMaterial, triangle, pszFilename, nLineNumber );
}
else if ( sscanf( pszLine, "%1024s", szShadingGroup ) == 1 )
{
char pszMaterialPath[ ARRAYSIZE( szShadingGroup ) ];
V_StripExtension( szShadingGroup, pszMaterialPath, ARRAYSIZE( pszMaterialPath ) );
sMaterial = pszMaterialPath;
triangle.Reset();
}
else
{
Error( "%s(%d) : triangle error : unexpected data in triangles\n",
pszFilename, nLineNumber );
triangle.Reset();
}
}
else
{
Error( "%s(%d) : parser error : unknown parser state\n",
pszFilename, nLineNumber );
nParserState = kGeneral;
}
}
pDmeModel->CaptureJointsToBaseState( "bind" );
if ( pDmeChannelsClip )
{
// Reset skeleton values to the first sample
FOR_EACH_MAP_FAST( smdJointMap, nJointMapIndex )
{
CDmeDag *pDmeDag = smdJointMap.Element( nJointMapIndex ).m_pDmeDag;
if ( pDmeDag )
{
CDmeTransform *pDmeTransform = pDmeDag->GetTransform();
CDmeVector3Log *pDmePosLog = pDmeDag->GetValueElement< CDmeVector3Log >( "__posLog" );
pDmeTransform->SetPosition( pDmePosLog->GetKeyValue( 0 ) );
CDmeQuaternionLog *pDmeRotLog = pDmeDag->GetValueElement< CDmeQuaternionLog >( "__rotLog" );
pDmeTransform->SetOrientation( pDmeRotLog->GetKeyValue( 0 ) );
}
}
pDmeChannelsClip->SetDuration( DmeTime_t( nFrame, DmeFramerate_t( m_flFrameRate ) ) - pDmeChannelsClip->GetStartTime() );
}
return pDmeRoot;
}
//-----------------------------------------------------------------------------
//
//-----------------------------------------------------------------------------
void CDmSmdSerializer::FixNodeName( CUtlString &sName ) const
{
char szTmpBuf0[ MAX_PATH ];
char szTmpBuf1[ MAX_PATH ];
V_strncpy( szTmpBuf0, sName.Get(), ARRAYSIZE( szTmpBuf0 ) );
// Strip trailing quotes
char *pszName = szTmpBuf0 + sName.Length() - 1;
while ( pszName >= szTmpBuf0 && *pszName && *pszName == '"' )
{
*pszName = '\0';
--pszName;
}
// Strip leading quotes
pszName = szTmpBuf0;
while ( *pszName && *pszName == '"')
{
++pszName;
}
if ( m_bOptAutoStripPrefix )
{
// Get the string before the '.'
V_FileBase( pszName, szTmpBuf1, ARRAYSIZE( szTmpBuf1 ) );
V_strncpy( szTmpBuf0, szTmpBuf1, ARRAYSIZE( szTmpBuf0 ) );
pszName = szTmpBuf0;
}
if ( !m_sNodeDelPrefix.IsEmpty() && StringHasPrefix( pszName, m_sNodeDelPrefix.Get() ) )
{
pszName = const_cast< char * >( StringAfterPrefix( pszName, m_sNodeDelPrefix.Get() ) );
}
if ( m_sNodeAddPrefix.IsEmpty() )
{
sName = pszName;
}
else
{
sName = m_sNodeAddPrefix;
sName += pszName;
}
}