2016-02-25 20:19:27 +00:00
// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
# include "nel/misc/file.h"
# include "nel/misc/path.h"
2016-04-12 14:53:28 +00:00
# include "nel/misc/common.h"
2016-02-25 20:19:27 +00:00
# include "nel/3d/scene_group.h"
# include "nel/3d/zone.h"
# include "nel/3d/skeleton_shape.h"
# include "nel/3d/register_3d.h"
# include "nel/3d/mesh.h"
# include "nel/3d/mesh_mrm.h"
# include "nel/3d/mesh_mrm_skinned.h"
# include "nel/3d/mesh_multi_lod.h"
# ifdef NL_OS_WINDOWS
# include <conio.h>
# endif // NL_OS_WINDOWS
# ifdef NL_OS_UNIX
# include <stdio.h>
# include <termios.h>
# include <unistd.h>
int _getch ( ) {
struct termios oldt ,
newt ;
int ch ;
tcgetattr ( STDIN_FILENO , & oldt ) ;
newt = oldt ;
newt . c_lflag & = ~ ( ICANON | ECHO ) ;
tcsetattr ( STDIN_FILENO , TCSANOW , & newt ) ;
ch = getchar ( ) ;
tcsetattr ( STDIN_FILENO , TCSANOW , & oldt ) ;
return ch ;
}
# endif // NL_OS_UNIX
using namespace std ;
using namespace NLMISC ;
using namespace NL3D ;
// ***************************************************************************
void displayGeom ( FILE * logStream , const CMeshGeom & geom )
{
uint i , j ;
uint numFaces = 0 ;
for ( i = 0 ; i < geom . getNbMatrixBlock ( ) ; i + + )
{
for ( j = 0 ; j < geom . getNbRdrPass ( i ) ; j + + )
{
numFaces + = geom . getRdrPassPrimitiveBlock ( i , j ) . getNumIndexes ( ) / 3 ;
}
}
fprintf ( logStream , " Standard Mesh %s \n " , geom . isSkinned ( ) ? " Skinned " : " " ) ;
fprintf ( logStream , " NumFaces: %d \n " , numFaces ) ;
fprintf ( logStream , " NumVertices: %d \n " , geom . getVertexBuffer ( ) . getNumVertices ( ) ) ;
uint nbBS = geom . getNbBlendShapes ( ) ;
if ( nbBS )
fprintf ( logStream , " NumBlendShapes: %d \n " , nbBS ) ;
IMeshVertexProgram * mvp = geom . getMeshVertexProgram ( ) ;
if ( mvp )
fprintf ( logStream , " MeshVertexProgram: %s \n " , typeid ( * mvp ) . name ( ) ) ;
}
void displayMRMGeom ( FILE * logStream , const CMeshMRMGeom & geom )
{
uint i , j ;
uint numFaces = 0 ;
uint numFacesLodMax = 0 ;
for ( i = 0 ; i < geom . getNbLod ( ) ; i + + )
{
for ( j = 0 ; j < geom . getNbRdrPass ( i ) ; j + + )
{
uint nPassFaces = geom . getRdrPassPrimitiveBlock ( i , j ) . getNumIndexes ( ) / 3 ;
numFaces + = nPassFaces ;
if ( i = = geom . getNbLod ( ) - 1 )
numFacesLodMax + = nPassFaces ;
}
}
fprintf ( logStream , " MRM Mesh %s \n " , geom . isSkinned ( ) ? " Skinned " : " " ) ;
fprintf ( logStream , " NumFaces(Max Lod): %d \n " , numFacesLodMax ) ;
fprintf ( logStream , " NumFaces(Sum all Lods): %d \n " , numFaces ) ;
fprintf ( logStream , " NumVertices(Sum all Lods): %d \n " , geom . getVertexBuffer ( ) . getNumVertices ( ) ) ;
fprintf ( logStream , " NumShadowSkinVertices: %d \n " , geom . getNumShadowSkinVertices ( ) ) ;
fprintf ( logStream , " Skinned: %s \n " , geom . isSkinned ( ) ? " true " : " false " ) ;
uint nbBS = geom . getNbBlendShapes ( ) ;
if ( nbBS )
fprintf ( logStream , " NumBlendShapes: %d \n " , nbBS ) ;
}
void displayMRMSkinnedGeom ( FILE * logStream , const CMeshMRMSkinnedGeom & geom )
{
uint i , j ;
uint numFaces = 0 ;
uint numFacesLodMax = 0 ;
for ( i = 0 ; i < geom . getNbLod ( ) ; i + + )
{
for ( j = 0 ; j < geom . getNbRdrPass ( i ) ; j + + )
{
CIndexBuffer block ;
geom . getRdrPassPrimitiveBlock ( i , j , block ) ;
uint nPassFaces = block . getNumIndexes ( ) / 3 ;
numFaces + = nPassFaces ;
if ( i = = geom . getNbLod ( ) - 1 )
numFacesLodMax + = nPassFaces ;
}
}
fprintf ( logStream , " MRM Skinned Mesh \n " ) ;
fprintf ( logStream , " NumFaces(Max Lod): %d \n " , numFacesLodMax ) ;
fprintf ( logStream , " NumFaces(Sum all Lods): %d \n " , numFaces ) ;
CVertexBuffer VB ;
geom . getVertexBuffer ( VB ) ;
fprintf ( logStream , " NumVertices(Sum all Lods): %d \n " , VB . getNumVertices ( ) ) ;
fprintf ( logStream , " NumShadowSkinVertices: %d \n " , geom . getNumShadowSkinVertices ( ) ) ;
}
uint MaxNumLightMap = 0 ;
void displayMeshBase ( FILE * logStream , CMeshBase * meshBase )
{
uint nMat = meshBase - > getNbMaterial ( ) ;
uint nLms = ( uint ) meshBase - > _LightInfos . size ( ) ;
MaxNumLightMap = max ( MaxNumLightMap , nLms ) ;
if ( nLms )
{
fprintf ( logStream , " The Mesh has %d lightmaps for %d Materials \n " , nLms , nMat ) ;
for ( uint i = 0 ; i < nLms ; i + + )
{
uint32 lg = meshBase - > _LightInfos [ i ] . LightGroup ;
string al = meshBase - > _LightInfos [ i ] . AnimatedLight ;
fprintf ( logStream , " LightGroup=%d; AnimatedLight='%s'; mat/stage: " , lg , al . c_str ( ) ) ;
std : : list < CMeshBase : : CLightMapInfoList : : CMatStage > : : iterator it = meshBase - > _LightInfos [ i ] . StageList . begin ( ) ;
while ( it ! = meshBase - > _LightInfos [ i ] . StageList . end ( ) )
{
fprintf ( logStream , " %d/%d, " , it - > MatId , it - > StageId ) ;
it + + ;
}
fprintf ( logStream , " \n " ) ;
}
}
else
{
fprintf ( logStream , " The Mesh has %d Materials \n " , nMat ) ;
}
fprintf ( logStream , " The mesh has a LodCharacterTexture: %s \n " , meshBase - > getLodCharacterTexture ( ) ? " true " : " false " ) ;
}
// ***************************************************************************
/// Dispaly info for file in stdout
void displayInfoFileInStream ( FILE * logStream , const char * fileName , const set < string > & options , bool displayShortFileName )
{
if ( fileName = = NULL )
return ;
bool ms = options . find ( " -ms " ) ! = options . end ( ) ;
bool vi = options . find ( " -vi " ) ! = options . end ( ) ;
bool vl = options . find ( " -vl " ) ! = options . end ( ) ;
bool vp = options . find ( " -vp " ) ! = options . end ( ) ;
bool veil = options . find ( " -veil " ) ! = options . end ( ) ;
// Special option.
if ( ms )
{
if ( strstr ( fileName , " .shape " ) )
{
// read the skeleton.
CIFile file ( fileName ) ;
CShapeStream shapeStream ;
file . serial ( shapeStream ) ;
// Test Type
CMesh * mesh = dynamic_cast < CMesh * > ( shapeStream . getShapePointer ( ) ) ;
// Mesh ??
if ( mesh )
{
if ( mesh - > getMeshGeom ( ) . isSkinned ( ) )
{
fprintf ( logStream , " %s is Skinned, but without MRM!!! \n " , fileName ) ;
}
}
// release
delete shapeStream . getShapePointer ( ) ;
shapeStream . setShapePointer ( NULL ) ;
}
}
// Std Way.
else
{
// some general info.
if ( displayShortFileName )
{
string sfn = CFile : : getFilename ( fileName ) ;
fprintf ( logStream , " File: %s \n " , sfn . c_str ( ) ) ;
}
else
{
fprintf ( logStream , " File: %s \n " , fileName ) ;
}
fprintf ( logStream , " *********** \n \n " ) ;
if ( strstr ( fileName , " .zone " ) )
{
// read the zone.
CIFile file ( fileName ) ;
CZone zone ;
file . serial ( zone ) ;
// retreive info on Zone
CZoneInfo zoneInfo ;
zone . retrieve ( zoneInfo ) ;
// display Info on the zone:
fprintf ( logStream , " Num Patchs: %d \n " , zone . getNumPatchs ( ) ) ;
fprintf ( logStream , " Num PointLights: %u \n " , ( uint ) zoneInfo . PointLights . size ( ) ) ;
if ( vl )
{
fprintf ( logStream , " Lights \n " ) ;
uint k ;
for ( k = 0 ; k < zoneInfo . PointLights . size ( ) ; + + k )
{
const CPointLightNamed & pl = zoneInfo . PointLights [ k ] ;
CRGBA diffuse = pl . getDiffuse ( ) ;
CRGBA defaultDiffuse = pl . getDefaultDiffuse ( ) ;
fprintf ( logStream , " light group = %d, anim = \" %s \" x=%.1f, y=%.1f, z=%.1f, r=%d, g=%d, b=%d, dr=%d, dg=%d, db=%d \n " , pl . LightGroup ,
pl . AnimatedLight . c_str ( ) , pl . getPosition ( ) . x , pl . getPosition ( ) . y , pl . getPosition ( ) . z ,
diffuse . R , diffuse . G , diffuse . B , defaultDiffuse . R , defaultDiffuse . G , defaultDiffuse . B ) ;
}
}
if ( vp )
{
CZoneInfo zoneInfo ;
zone . retrieve ( zoneInfo ) ;
// Patch information
uint k ;
for ( k = 0 ; k < zoneInfo . Patchs . size ( ) ; + + k )
{
fprintf ( logStream , " Patch %d, S %d, T %d, smooth flags %d %d %d %d, corner flags %d %d %d %d \n " ,
k ,
zoneInfo . Patchs [ k ] . OrderS ,
zoneInfo . Patchs [ k ] . OrderT ,
zoneInfo . Patchs [ k ] . getSmoothFlag ( 0 ) ,
zoneInfo . Patchs [ k ] . getSmoothFlag ( 1 ) ,
zoneInfo . Patchs [ k ] . getSmoothFlag ( 2 ) ,
zoneInfo . Patchs [ k ] . getSmoothFlag ( 3 ) ,
zoneInfo . Patchs [ k ] . getCornerSmoothFlag ( 0 ) ,
zoneInfo . Patchs [ k ] . getCornerSmoothFlag ( 1 ) ,
zoneInfo . Patchs [ k ] . getCornerSmoothFlag ( 2 ) ,
zoneInfo . Patchs [ k ] . getCornerSmoothFlag ( 3 ) ) ;
uint l ;
for ( l = 0 ; l < 4 ; l + + )
{
fprintf ( logStream , " Bind edge %d, NPatchs %d, ZoneId %d, Next %d %d %d %d, Edge %d %d %d %d \n " ,
l ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . NPatchs ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . ZoneId ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . Next [ 0 ] ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . Next [ 1 ] ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . Next [ 2 ] ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . Next [ 3 ] ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . Edge [ 0 ] ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . Edge [ 1 ] ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . Edge [ 2 ] ,
zoneInfo . Patchs [ k ] . BindEdges [ l ] . Edge [ 3 ] ) ;
}
}
}
}
else if ( strstr ( fileName , " .ig " ) )
{
// read the ig.
CIFile file ( fileName ) ;
CInstanceGroup ig ;
file . serial ( ig ) ;
// display Info on the ig:
CVector gpos = ig . getGlobalPos ( ) ;
fprintf ( logStream , " Global pos : x = %.1f, y = %.1f, z =%.1f \n " , gpos . x , gpos . y , gpos . z ) ;
fprintf ( logStream , " Num Instances: %d \n " , ig . getNumInstance ( ) ) ;
fprintf ( logStream , " Num PointLights: %u \n " , ( uint ) ig . getPointLightList ( ) . size ( ) ) ;
fprintf ( logStream , " Realtime sun contribution = %s \n " , ig . getRealTimeSunContribution ( ) ? " on " : " off " ) ;
if ( vi )
{
fprintf ( logStream , " Instances: \n " ) ;
uint k ;
for ( k = 0 ; k < ig . _InstancesInfos . size ( ) ; + + k )
{
fprintf ( logStream , " Instance %3d: shape = %s, name = %s, x = %.1f, y = %.1f, z = %.1f, sx = %.1f, sy = %.1f, sz = %.1f \n " , k , ig . _InstancesInfos [ k ] . Name . c_str ( ) , ig . _InstancesInfos [ k ] . InstanceName . c_str ( ) , ig . _InstancesInfos [ k ] . Pos . x + gpos . x , ig . _InstancesInfos [ k ] . Pos . y + gpos . y , ig . _InstancesInfos [ k ] . Pos . z + gpos . z , ig . _InstancesInfos [ k ] . Scale . x , ig . _InstancesInfos [ k ] . Scale . y , ig . _InstancesInfos [ k ] . Scale . z ) ;
}
}
if ( vl )
{
fprintf ( logStream , " Lights: \n " ) ;
uint k ;
for ( k = 0 ; k < ig . getNumPointLights ( ) ; + + k )
{
const CPointLightNamed & pl = ig . getPointLightNamed ( k ) ;
CRGBA diffuse = pl . getDiffuse ( ) ;
CRGBA defaultDiffuse = pl . getDefaultDiffuse ( ) ;
fprintf ( logStream , " Light %3d: Light group = %d, anim = \" %s \" x=%.1f, y=%.1f, z=%.1f, r=%d, g=%d, b=%d, dr=%d, dg=%d, db=%d \n " , k , pl . LightGroup ,
pl . AnimatedLight . c_str ( ) , pl . getPosition ( ) . x + gpos . x , pl . getPosition ( ) . y + gpos . y , pl . getPosition ( ) . z + gpos . z ,
diffuse . R , diffuse . G , diffuse . B , defaultDiffuse . R , defaultDiffuse . G , defaultDiffuse . B ) ;
}
}
if ( veil )
{
fprintf ( logStream , " Instances Bound To Lights: \n " ) ;
fprintf ( logStream , " WordList: \n " ) ;
fprintf ( logStream , " 'StaticLight Not Computed' means the instance has a ASP flag or the ig is not yet lighted \n " ) ;
fprintf ( logStream , " If lighted, for each instance, the format is 'SunContribution(8Bit) - idLight0;idLight1 (or NOLIGHT) - LocalAmbientId (or GLOBAL_AMBIENT)' \n " ) ;
fprintf ( logStream , " DCS means the instance don't cast shadow (used in the lighter) \n " ) ;
fprintf ( logStream , " DCSINT Same but very special for ig_lighter only \n " ) ;
fprintf ( logStream , " DCSEXT Same but very special for zone_lighter and zone_ig_lighter only \n " ) ;
fprintf ( logStream , " ASP means the instance AvoidStaticLightPreCompute (used in the lighter) \n " ) ;
fprintf ( logStream , " ------------------------------------------------------------- \n " ) ;
uint k ;
for ( k = 0 ; k < ig . _InstancesInfos . size ( ) ; + + k )
{
CInstanceGroup : : CInstance & instance = ig . _InstancesInfos [ k ] ;
fprintf ( logStream , " Instance %3d: " , k ) ;
if ( ! instance . StaticLightEnabled )
fprintf ( logStream , " StaticLight Not Computed. " ) ;
else
{
fprintf ( logStream , " %3d - " , instance . SunContribution ) ;
if ( instance . Light [ 0 ] = = 0xFF )
fprintf ( logStream , " NOLIGHT - " ) ;
else
{
fprintf ( logStream , " %3d; " , instance . Light [ 0 ] ) ;
if ( instance . Light [ 1 ] ! = 0xFF )
fprintf ( logStream , " %3d " , instance . Light [ 1 ] ) ;
else
fprintf ( logStream , " " ) ; //, instance.Light[1]);
fprintf ( logStream , " - " ) ;
}
if ( instance . LocalAmbientId = = 0xFF )
fprintf ( logStream , " GLOBAL_AMBIENT. " ) ;
else
fprintf ( logStream , " %d. " , instance . LocalAmbientId ) ;
}
if ( instance . DontCastShadow )
fprintf ( logStream , " DCS, " ) ;
if ( instance . DontCastShadowForInterior )
fprintf ( logStream , " DCSINT, " ) ;
if ( instance . DontCastShadowForExterior )
fprintf ( logStream , " DCSEXT, " ) ;
if ( instance . AvoidStaticLightPreCompute )
fprintf ( logStream , " ASP, " ) ;
fprintf ( logStream , " \n " ) ;
}
}
}
else if ( strstr ( fileName , " .skel " ) )
{
// read the skeleton.
CIFile file ( fileName ) ;
CShapeStream shapeStream ;
file . serial ( shapeStream ) ;
CSkeletonShape * skel = dynamic_cast < CSkeletonShape * > ( shapeStream . getShapePointer ( ) ) ;
if ( skel )
{
vector < CBoneBase > bones ;
skel - > retrieve ( bones ) ;
// Display Bone Infos.
fprintf ( logStream , " Num Bones: %u \n " , ( uint ) bones . size ( ) ) ;
for ( uint i = 0 ; i < bones . size ( ) ; i + + )
{
// get parent
sint32 parent = bones [ i ] . FatherId ;
// get parent
bool inheritScale = bones [ i ] . UnheritScale ;
// get default pos.
CVector pos = bones [ i ] . DefaultPos . getDefaultValue ( ) ;
// get default rotquat.
CQuat rotQuat = bones [ i ] . DefaultRotQuat . getDefaultValue ( ) ;
// get default scale.
CVector scale = bones [ i ] . DefaultScale . getDefaultValue ( ) ;
// get inv bind pos.
CMatrix invBindPos = bones [ i ] . InvBindPos ;
CVector invBindPosI = invBindPos . getI ( ) ;
CVector invBindPosJ = invBindPos . getJ ( ) ;
CVector invBindPosK = invBindPos . getK ( ) ;
CVector invBindPosT = invBindPos . getPos ( ) ;
// print info
fprintf ( logStream , " Bone %2d. %s. \n " , i , bones [ i ] . Name . c_str ( ) ) ;
fprintf ( logStream , " Parent: %d \n " , parent ) ;
fprintf ( logStream , " InheritScale: %d \n " , inheritScale ) ;
fprintf ( logStream , " Position: (%2.3f, %2.3f, %2.3f) \n " ,
pos . x , pos . y , pos . z ) ;
fprintf ( logStream , " RotQuat: (%2.3f, %2.3f, %2.3f, %2.3f) \n " ,
rotQuat . x , rotQuat . y , rotQuat . z , rotQuat . w ) ;
fprintf ( logStream , " Scale: (%2.3f, %2.3f, %2.3f) \n " ,
scale . x , scale . y , scale . z ) ;
fprintf ( logStream , " InvBindPos: I: (%2.3f, %2.3f, %2.3f) \n " ,
invBindPosI . x , invBindPosI . y , invBindPosI . z ) ;
fprintf ( logStream , " InvBindPos: J: (%2.3f, %2.3f, %2.3f) \n " ,
invBindPosJ . x , invBindPosJ . y , invBindPosJ . z ) ;
fprintf ( logStream , " InvBindPos: K: (%2.3f, %2.3f, %2.3f) \n " ,
invBindPosK . x , invBindPosK . y , invBindPosK . z ) ;
fprintf ( logStream , " InvBindPos: Pos: (%2.3f, %2.3f, %2.3f) \n " ,
invBindPosT . x , invBindPosT . y , invBindPosT . z ) ;
}
}
else
{
fprintf ( logStream , " Bad Skel file \n " ) ;
}
// release
delete shapeStream . getShapePointer ( ) ;
shapeStream . setShapePointer ( NULL ) ;
}
else if ( strstr ( fileName , " .shape " ) )
{
// read the shape.
CIFile file ( fileName ) ;
CShapeStream shapeStream ;
file . serial ( shapeStream ) ;
// Test Type
CMesh * mesh = dynamic_cast < CMesh * > ( shapeStream . getShapePointer ( ) ) ;
CMeshMRM * meshMRM = dynamic_cast < CMeshMRM * > ( shapeStream . getShapePointer ( ) ) ;
CMeshMRMSkinned * meshMRMSkinned = dynamic_cast < CMeshMRMSkinned * > ( shapeStream . getShapePointer ( ) ) ;
CMeshMultiLod * meshMulti = dynamic_cast < CMeshMultiLod * > ( shapeStream . getShapePointer ( ) ) ;
// Material infos
CMeshBase * meshBase = dynamic_cast < CMeshBase * > ( shapeStream . getShapePointer ( ) ) ;
if ( meshBase )
{
displayMeshBase ( logStream , meshBase ) ;
}
// Mesh ??
if ( mesh )
{
displayGeom ( logStream , mesh - > getMeshGeom ( ) ) ;
}
// MRM ??
else if ( meshMRM )
{
displayMRMGeom ( logStream , meshMRM - > getMeshGeom ( ) ) ;
}
else if ( meshMRMSkinned )
{
displayMRMSkinnedGeom ( logStream , meshMRMSkinned - > getMeshGeom ( ) ) ;
}
// MultiLod??
else if ( meshMulti )
{
uint numSlots = meshMulti - > getNumSlotMesh ( ) ;
fprintf ( logStream , " Num Lods: %d \n " , numSlots ) ;
if ( numSlots )
{
const CMeshGeom * meshGeom = dynamic_cast < const CMeshGeom * > ( & ( meshMulti - > getMeshGeom ( 0 ) ) ) ;
const CMeshMRMGeom * meshMRMGeom = dynamic_cast < const CMeshMRMGeom * > ( & ( meshMulti - > getMeshGeom ( 0 ) ) ) ;
if ( meshGeom )
displayGeom ( logStream , * meshGeom ) ;
else if ( meshMRMGeom )
displayMRMGeom ( logStream , * meshMRMGeom ) ;
}
}
else
{
fprintf ( logStream , " Unsupported .shape type for display info \n " ) ;
}
// release
delete shapeStream . getShapePointer ( ) ;
shapeStream . setShapePointer ( NULL ) ;
}
else if ( strstr ( fileName , " .anim " ) )
{
// read the shape.
CIFile file ( fileName ) ;
CAnimation anim ;
file . serial ( anim ) ;
// Enum the tracks
std : : set < std : : string > tracks ;
anim . getTrackNames ( tracks ) ;
std : : set < std : : string > : : iterator ite = tracks . begin ( ) ;
while ( ite ! = tracks . end ( ) )
{
// Track name
fprintf ( logStream , " Track name=%s " , ite - > c_str ( ) ) ;
uint trackId = anim . getIdTrackByName ( * ite ) ;
ITrack * track = anim . getTrack ( trackId ) ;
if ( track )
{
fprintf ( logStream , " type=%s " , typeid ( * track ) . name ( ) ) ;
UTrackKeyframer * keyFramer = dynamic_cast < UTrackKeyframer * > ( track ) ;
if ( keyFramer )
{
TAnimationTime begin = track - > getBeginTime ( ) ;
TAnimationTime end = track - > getEndTime ( ) ;
std : : vector < TAnimationTime > keys ;
keyFramer - > getKeysInRange ( begin , end , keys ) ;
if ( ! keys . empty ( ) )
{
float fvalue ;
sint32 ivalue ;
CRGBA cvalue ;
CVector vvalue ;
CQuat qvalue ;
string svalue ;
bool bvalue ;
uint i ;
if ( track - > interpolate ( begin , fvalue ) )
{
fprintf ( logStream , " floats \n " ) ;
for ( i = 0 ; i < keys . size ( ) ; i + + )
{
if ( track - > interpolate ( keys [ i ] , fvalue ) )
fprintf ( logStream , " \t Key %d : time=%f, value=%f \n " , i , keys [ i ] , fvalue ) ;
}
}
else if ( track - > interpolate ( begin , ivalue ) )
{
fprintf ( logStream , " integers \n " ) ;
for ( i = 0 ; i < keys . size ( ) ; i + + )
{
if ( track - > interpolate ( keys [ i ] , ivalue ) )
fprintf ( logStream , " \t Key %d : time=%f, value=%d \n " , i , keys [ i ] , ivalue ) ;
}
}
else if ( track - > interpolate ( begin , cvalue ) )
{
fprintf ( logStream , " color \n " ) ;
for ( i = 0 ; i < keys . size ( ) ; i + + )
{
if ( track - > interpolate ( keys [ i ] , cvalue ) )
fprintf ( logStream , " \t Key %d : time=%f, r=%d, g=%d, b=%d, a=%d \n " , i , keys [ i ] , cvalue . R , cvalue . G , cvalue . B , cvalue . A ) ;
}
}
else if ( track - > interpolate ( begin , vvalue ) )
{
fprintf ( logStream , " vector \n " ) ;
for ( i = 0 ; i < keys . size ( ) ; i + + )
{
if ( track - > interpolate ( keys [ i ] , vvalue ) )
fprintf ( logStream , " \t Key %d : time=%f, x=%f, y=%f, z=%f \n " , i , keys [ i ] , vvalue . x , vvalue . y , vvalue . z ) ;
}
}
else if ( track - > interpolate ( begin , qvalue ) )
{
fprintf ( logStream , " quaternion \n " ) ;
for ( i = 0 ; i < keys . size ( ) ; i + + )
{
if ( track - > interpolate ( keys [ i ] , qvalue ) )
fprintf ( logStream , " \t Key %d : time=%f, x=%f, y=%f, z=%f, w=%f \n " , i , keys [ i ] , qvalue . x , qvalue . y , qvalue . z , qvalue . w ) ;
}
}
else if ( track - > interpolate ( begin , svalue ) )
{
fprintf ( logStream , " string \n " ) ;
for ( i = 0 ; i < keys . size ( ) ; i + + )
{
if ( track - > interpolate ( keys [ i ] , svalue ) )
fprintf ( logStream , " \t Key %d : time=%f, value=%s \n " , i , keys [ i ] , svalue . c_str ( ) ) ;
}
}
else if ( track - > interpolate ( begin , bvalue ) )
{
fprintf ( logStream , " bool \n " ) ;
for ( i = 0 ; i < keys . size ( ) ; i + + )
{
if ( track - > interpolate ( keys [ i ] , bvalue ) )
fprintf ( logStream , " \t Key %d : time=%f, value=%s \n " , i , keys [ i ] , bvalue ? " true " : " false " ) ;
}
}
}
}
}
ite + + ;
}
}
else
{
fprintf ( logStream , " unsupported format \n " ) ;
}
}
}
// ***************************************************************************
// dispaly info for a file.
void displayInfoFile ( FILE * logStream , const char * fileName , const set < string > & options , bool displayShortFileName )
{
// Display on screen.
displayInfoFileInStream ( stdout , fileName , options , displayShortFileName ) ;
// Display in log
if ( logStream )
displayInfoFileInStream ( logStream , fileName , options , displayShortFileName ) ;
}
// ***************************************************************************
/// Dispaly info cmd line
int main ( int argc , const char * argv [ ] )
{
registerSerial3d ( ) ;
if ( argc < 2 )
{
puts ( " Usage: ig_info file.??? [opt] " ) ;
puts ( " Usage: ig_info directory [opt] " ) ;
puts ( " For now, only .ig, .zone, .skel, .shape are supported " ) ;
puts ( " Results are displayed too in \" c:/temp/file_info.log \" " ) ;
puts ( " [opt] can get: " ) ;
puts ( " -ms display only a Warning if file is a .shape and is a Mesh, skinned, but without MRM " ) ;
puts ( " -vi verbose instance information " ) ;
puts ( " -vl verbose light information " ) ;
puts ( " -vp verbose patche information " ) ;
puts ( " -veil verbose instances bound to light extra information " ) ;
puts ( " Press any key " ) ;
_getch ( ) ;
return - 1 ;
}
// Parse options.
set < string > options ;
int i ;
for ( i = 2 ; i < argc ; i + + )
options . insert ( argv [ i ] ) ;
// Open log
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FILE * logStream = nlfopen ( getLogDirectory ( ) + " file_info.log " , " wt " ) ;
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// parse dir or file ??
const char * fileName = argv [ 1 ] ;
if ( CFile : : isDirectory ( fileName ) )
{
// dir all files.
std : : vector < std : : string > listFile ;
CPath : : getPathContent ( fileName , false , false , true , listFile ) ;
fprintf ( stdout , " Scanning Directory '%s' ......... \n \n \n " , fileName ) ;
if ( logStream )
fprintf ( logStream , " Scanning Directory '%s' ......... \n \n \n " , fileName ) ;
// For all files.
for ( uint i = 0 ; i < listFile . size ( ) ; i + + )
{
displayInfoFile ( logStream , listFile [ i ] . c_str ( ) , options , true ) ;
}
// display info for lightmaps
fprintf ( stdout , " \n \n ************** \n I HAVE FOUND AT MAX %d LIGHTMAPS IN A SHAPE \n " , MaxNumLightMap ) ;
if ( logStream )
fprintf ( logStream , " \n \n ************** \n I HAVE FOUND AT MAX %d LIGHTMAPS IN A SHAPE \n " , MaxNumLightMap ) ;
}
else
{
displayInfoFile ( logStream , fileName , options , false ) ;
}
// close log
if ( logStream )
fclose ( logStream ) ;
puts ( " Press any key " ) ;
_getch ( ) ;
}