//---------------------------------------------------------------
void LightExporter::exportLight( ExportNode* exportNode )
{
if ( !exportNode->getIsInVisualScene() )
return;
String lightId = getLightId(*exportNode);
INode * iNode = exportNode->getINode();
LightObject* lightObject = (LightObject*) (iNode->GetObjectRef());
if ( !lightObject )
return;
if ( mDocumentExporter->isExportedObject(ObjectIdentifier(lightObject)) )
return;
mDocumentExporter->insertExportedObject(ObjectIdentifier(lightObject), exportNode);
// Retrieve the target node, if we are not baking matrices.
// Baked matrices must always sample the transform!
ULONG ClassId = lightObject->ClassID().PartA();
bool isTargeted = !mDocumentExporter->getOptions().getBakeMatrices() && (ClassId == SPOT_LIGHT_CLASS_ID || ClassId == TDIR_LIGHT_CLASS_ID);
INode* targetNode = isTargeted ? iNode->GetTarget() : 0;
// some lights are not supported at all
switch (ClassId)
{
case FSPOT_LIGHT_CLASS_ID:
case SPOT_LIGHT_CLASS_ID:
case DIR_LIGHT_CLASS_ID:
case TDIR_LIGHT_CLASS_ID:
case SKY_LIGHT_CLASS_ID_PART_A:
case OMNI_LIGHT_CLASS_ID:
break;
default:
return;
}
// Determine the light's type
bool isSpot = false;
bool isDirectional = false;
bool isPoint = false;
bool isSky = false;
COLLADASW::Light::LightType lightType;
switch (ClassId)
{
case FSPOT_LIGHT_CLASS_ID:
case SPOT_LIGHT_CLASS_ID:
lightType = COLLADASW::Light::SPOT;
isSpot = true;
break;
case DIR_LIGHT_CLASS_ID:
case TDIR_LIGHT_CLASS_ID:
lightType = COLLADASW::Light::DIRECTIONAL;
isDirectional = true;
break;
case SKY_LIGHT_CLASS_ID_PART_A:
lightType = COLLADASW::Light::POINT;
isSky = true;
break;
case OMNI_LIGHT_CLASS_ID:
lightType = COLLADASW::Light::POINT;
isPoint = true;
break;
}
COLLADASW::Light * colladaLight = 0;
switch ( lightType )
{
case COLLADASW::Light::DIRECTIONAL:
colladaLight = new COLLADASW::DirectionalLight(COLLADASW::LibraryLights::mSW, lightId, COLLADASW::Utils::checkNCName(NativeString(exportNode->getINode()->GetName())));
break;
case COLLADASW::Light::POINT:
colladaLight = new COLLADASW::PointLight(COLLADASW::LibraryLights::mSW, lightId, COLLADASW::Utils::checkNCName(NativeString(exportNode->getINode()->GetName())));
break;
case COLLADASW::Light::SPOT:
colladaLight = new COLLADASW::SpotLight(COLLADASW::LibraryLights::mSW, lightId, COLLADASW::Utils::checkNCName(NativeString(exportNode->getINode()->GetName())));
break;
}
// Retrieve the parameter block
IParamBlock* parameters = 0;
IParamBlock2* parametersSky = 0;
if (isSky)
parametersSky = (IParamBlock2*) lightObject->GetReference(MaxLight::PBLOCK_REF_SKY);
else
parameters = (IParamBlock*) lightObject->GetReference(MaxLight::PBLOCK_REF);
if (!parameters && !parametersSky)
{
delete colladaLight;
return;
}
if (parameters)
{
bool hasAnimatedColor = mAnimationExporter->addAnimatedParameter(parameters, MaxLight::PB_COLOR, lightId, colladaLight->getColorDefaultSid(), 0 );
colladaLight->setColor(EffectExporter::maxColor2Color(parameters->GetColor(MaxLight::PB_COLOR)), hasAnimatedColor);
}
else if (parametersSky )
{
bool hasAnimatedColor = mAnimationExporter->addAnimatedParameter(parametersSky, MaxLight::PB_SKY_COLOR, lightId, colladaLight->getColorDefaultSid(), 0 );
colladaLight->setColor(EffectExporter::maxColor2Color(parametersSky->GetColor(MaxLight::PB_SKY_COLOR)), hasAnimatedColor);
}
if (isSpot || isPoint)
{
int decayFunction = parameters->GetInt(isPoint ? MaxLight::PB_DECAY : MaxLight::PB_OMNIDECAY, mDocumentExporter->getOptions().getAnimationStart());
switch (decayFunction)
{
case 1:
colladaLight->setConstantAttenuation(0.0f);
colladaLight->setLinearAttenuation(1.0f);
break;
case 2:
colladaLight->setConstantAttenuation(0.0f);
colladaLight->setQuadraticAttenuation(1.0f);
break;
case 0:
default:
colladaLight->setConstantAttenuation(1.0f);
break;
}
}
else if (isSky)
{
colladaLight->setConstantAttenuation(1.0f);
}
setExtraTechnique(colladaLight);
if ( parameters )
addParamBlockAnimatedExtraParameters(LIGHT_ELEMENT, LIGHT_PARAMETERS, LIGHT_PARAMETER_COUNT, parameters, lightId);
else
addParamBlockAnimatedExtraParameters(SKYLIGHT_ELEMENT, SKYLIGHT_PARAMETERS, SKYLIGHT_PARAMETER_COUNT, parametersSky, lightId);
// add all the information to extra tag, that are not contained in IParamBlock
if (isSpot || isDirectional || isPoint)
{
GenLight* light = (GenLight*)(lightObject);
if (!light)
{
delete colladaLight;
return;
}
// Export the overshoot flag for directional lights
if (isDirectional || isSpot)
{
addExtraChildParameter(LIGHT_ELEMENT, OVERSHOOT_PARAMETER, light->GetOvershoot() != false);
}
addExtraChildParameter(LIGHT_ELEMENT, DECAY_TYPE_PARAMETER, (int)light->GetDecayType());
addExtraChildParameter(LIGHT_ELEMENT, USE_NEAR_ATTENUATION_PARAMETER, (light->GetUseAttenNear() != false));
addExtraChildParameter(LIGHT_ELEMENT, USE_FAR_ATTENUATION_PARAMETER, (light->GetUseAtten() != false));
exportShadowParameters(light);
if (light->GetProjector())
{
Texmap* projectorMap = light->GetProjMap();
if (projectorMap)
{
String imageId = exportTexMap(projectorMap);
if ( !imageId.empty() )
{
addExtraChildParameter(LIGHT_ELEMENT, LIGHT_MAP_ELEMENT, "#" + imageId);
}
}
}
}
else // isSky
{
Texmap *colorMap = parametersSky->GetTexmap(MaxLight::PB_SKY_COLOR_MAP, mDocumentExporter->getOptions().getAnimationStart());
String imageId = exportTexMap(colorMap);
if ( !imageId.empty())
{
addExtraChildParameter(SKYLIGHT_ELEMENT, SKYLIGHT_COLORMAP_ELEMENT, "#" + imageId);
}
}
addLight(*colladaLight);
delete colladaLight;
}
void SkeletonExporter::export_light(INode *node)
{
Control *c;
int size_key, sf;
ObjectState os;
GenLight* light;
struct LightState ls;
float near_radius, far_radius;
Point3 row;
Matrix3 mat;
os=node->EvalWorldState(0);
if (!os.obj) return; // per sicurezza
light=(GenLight*)os.obj;
// controlliamo se esiste un padre
INode *padre=node->GetParentNode();
if ((padre) && (strcmp(padre->GetName(), "Scene Root")!=0))
sf=strlen(padre->GetName())+1;
else sf=0;
light->EvalLightState(0, FOREVER, &ls);
fprintf(fTXT, "Name : %s\n", node->GetName());
switch (ls.type)
{
case OMNI_LGT: fprintf(fTXT, "Omni light found\n");
// flag padre + nome padre + pivot + NodeTM(0) +
// + colore
write_chunk_header(fA3D, OMNI_LIGHT_ID,
node->GetName(), 4+sf+12+48+12);
if (makeRAY) write_chunk_header(fRAY, OMNI_LIGHT_ID,
node->GetName(), 4+sf+12+48+12);
break;
case SPOT_LGT: fprintf(fTXT, "Spot light found\n");
// flag padre + nome padre + pivot + NodeTM(0) +
// + colore + falloff + hotspot
write_chunk_header(fA3D, SPOT_LIGHT_ID,
node->GetName(), 4+sf+12+48+12+8);
if (makeRAY) write_chunk_header(fRAY, SPOT_LIGHT_ID,
node->GetName(), 4+sf+12+48+12+8);
break;
}
// ----------- scrivo il padre (flag, nome) ------------------
fwrite(&sf, sizeof(int), 1, fA3D);
if (sf>0) write_string0(fA3D, padre->GetName());
if (makeRAY) fwrite(&sf, sizeof(int), 1, fRAY);
if (makeRAY)
if (sf>0) write_string0(fRAY, padre->GetName());
// --------------- scrittura del punto di pivot ----------------
GetPivotOffset(node, &row);
fprintf(fTXT, "Pivot point : %f, %f, %f\n", row.x, row.y, row.z);
write_point3(&row, fA3D);
if (makeRAY) write_point3(&row, fRAY);
// ------------------- salviamo la NodeTM(0) ---------------------
mat=node->GetNodeTM(0);
row=mat.GetRow(3);
fprintf(fTXT, "World position : x=%f, y=%f, z=%f\n", row.x, row.y, row.z);
write_matrix(&mat, fA3D);
if (makeRAY) write_matrix(&mat, fRAY);
// -------------------- salviamo il colore -----------------------
fprintf(fTXT, "Color : R=%f, G=%f, B=%f\n", ls.color.r, ls.color.g, ls.color.b);
fwrite(&ls.color.r, sizeof(float), 1, fA3D);
fwrite(&ls.color.g, sizeof(float), 1, fA3D);
fwrite(&ls.color.b, sizeof(float), 1, fA3D);
if (makeRAY) fwrite(&ls.color.r, sizeof(float), 1, fRAY);
if (makeRAY) fwrite(&ls.color.g, sizeof(float), 1, fRAY);
if (makeRAY) fwrite(&ls.color.b, sizeof(float), 1, fRAY);
// ---------------------- falloff e hotpsot ----------------------
if (ls.type == SPOT_LGT)
{
float hotspot = (float)(ls.hotsize*3.14159265358979323846/180.0);
float falloff = (float)(ls.fallsize*3.14159265358979323846/180.0);
fwrite(&hotspot, sizeof(float), 1, fA3D);
if (makeRAY) fwrite(&hotspot, sizeof(float), 1, fRAY);
fwrite(&falloff, sizeof(float), 1, fA3D);
if (makeRAY) fwrite(&falloff, sizeof(float), 1, fRAY);
}
fprintf(fTXT, "Intensity : %f\n", ls.intens);
// -------------- esportazione tracce di posizione ---------------
c=node->GetTMController()->GetPositionController();
if ((c) && (c->NumKeys()>0))
{
if (IsTCBControl(c)) size_key=36;
else
if (IsBezierControl(c)) size_key=40;
else size_key=16;
fprintf(fTXT, "Light position track present.");
write_chunk_header(fA3D, POSITION_TRACK_ID,
node->GetName(), 1+2+4+c->NumKeys()*size_key);
export_point3_track(c, 1, fA3D);
if (makeRAY) write_chunk_header(fRAY, POSITION_TRACK_ID,
node->GetName(), 1+2+4+c->NumKeys()*size_key);
if (makeRAY) export_point3_track(c, 1, fRAY);
}
// --------------- esportazione tracce di colore -----------------
c=light->GetColorControl();
if ((c) && (c->NumKeys()>0))
{
if (IsTCBControl(c)) size_key=36;
else
if (IsBezierControl(c)) size_key=40;
else size_key=16;
fprintf(fTXT, "Light color track present.");
write_chunk_header(fA3D, COLOR_TRACK_ID,
node->GetName(), 1+2+4+c->NumKeys()*size_key);
export_point3_track(c, 1.0f, fA3D);
if (makeRAY) write_chunk_header(fRAY, COLOR_TRACK_ID,
node->GetName(), 1+2+4+c->NumKeys()*size_key);
if (makeRAY) export_point3_track(c, 1.0f, fRAY);
}
// -------------- esportazione tracce di hotspot -----------------
c=light->GetHotSpotControl();
if ((c) && (c->NumKeys()>0) && (ls.type == SPOT_LGT))
{
if (IsTCBControl(c)) size_key=28;
else
if (IsBezierControl(c)) size_key=16;
else size_key=8;
fprintf(fTXT, "Light hotspot track present.");
write_chunk_header(fA3D, HOTSPOT_TRACK_ID,
node->GetName(), 1+2+4+c->NumKeys()*size_key);
export_float_track(c, (float)(3.14159265358979323846/180.0), fA3D); // in radianti
if (makeRAY) write_chunk_header(fRAY, HOTSPOT_TRACK_ID,
node->GetName(), 1+2+4+c->NumKeys()*size_key);
if (makeRAY) export_float_track(c, (float)(3.14159265358979323846/180.0), fRAY); // in radianti
}
// -------------- esportazione tracce di falloff -----------------
c=light->GetFalloffControl();
if ((c) && (c->NumKeys()>0) && (ls.type == SPOT_LGT))
{
if (IsTCBControl(c)) size_key=28;
else
if (IsBezierControl(c)) size_key=16;
else size_key=8;
fprintf(fTXT, "Light falloff track present.");
write_chunk_header(fA3D, FALLOFF_TRACK_ID,
node->GetName(), 1+2+4+c->NumKeys()*size_key);
export_float_track(c, (float)(3.14159265358979323846/180.0), fA3D); // in radianti
if (makeRAY) write_chunk_header(fRAY, FALLOFF_TRACK_ID,
node->GetName(), 1+2+4+c->NumKeys()*size_key);
if (makeRAY) export_float_track(c, (float)(3.14159265358979323846/180.0), fRAY); // in radianti
}
// ------------------------- script ADL --------------------------
Mtl *materiale=node->GetMtl();
// NO far + NO near
if ((!light->GetUseAttenNear()) && (!light->GetUseAtten()))
{
far_radius=near_radius=999999;
}
else
// NO far + SI near
if ((light->GetUseAttenNear()) && (!light->GetUseAtten()))
{
near_radius=light->GetAtten(0, ATTEN1_START, FOREVER);
far_radius=999999;
}
else
// SI far + NO near
if ((!light->GetUseAttenNear()) && (light->GetUseAtten()))
{
far_radius=light->GetAtten(0, ATTEN_START, FOREVER);
near_radius=far_radius;
}
// SI far + SI near
if ((light->GetUseAttenNear()) && (light->GetUseAtten()))
{
near_radius=light->GetAtten(0, ATTEN1_START, FOREVER);
far_radius=light->GetAtten(0, ATTEN_START, FOREVER);
}
if (makeADL)
{
fprintf(fADL, " light %c%s%c\n {\n", '"', node->GetName(), '"');
if (materiale)
fprintf(fADL, " material=%c%s%c;\n", '"', materiale->GetName(), '"');
else
fprintf(fADL, " material=%cNONE%c;\n", '"', '"');
//fprintf(fADL, " scale_x=%c160%c;\n", '"', '"');
//fprintf(fADL, " scale_y=%c160%c;\n", '"', '"');
//fprintf(fADL, " near_radius=%c%f%c;\n", '"', near_radius, '"');
//fprintf(fADL, " far_radius=%c%f%c;\n", '"', far_radius, '"');
switch (light->GetDecayType())
{
case 0: fprintf(fADL, " attenuation0=%c1.0%c;\n", '"', '"');
fprintf(fADL, " attenuation1=%c0%c;\n", '"', '"');
fprintf(fADL, " attenuation2=%c0%c;\n", '"', '"');
break;
case 1: fprintf(fADL, " attenuation0=%c0%c;\n", '"', '"');
fprintf(fADL, " attenuation1=%c1.0%c;\n", '"', '"');
fprintf(fADL, " attenuation2=%c0%c;\n", '"', '"');
break;
case 2: fprintf(fADL, " attenuation0=%c0%c;\n", '"', '"');
fprintf(fADL, " attenuation1=%c0%c;\n", '"', '"');
fprintf(fADL, " attenuation2=%c1.0%c;\n", '"', '"');
break;
}
char range[20];
my_ftoa(far_radius, range);
fprintf(fADL, " max_range=%c%s%c;\n", '"', range, '"');
fprintf(fADL, " }\n\n");
}
fprintf(fTXT, "\n\n\n----------------------------------------------------\n");
}