Exemple #1
0
void LLControlGroup::setVector3(const LLString& name, const LLVector3 &val)
{
	LLControlBase* control = getControl(name);
	
	if (control && control->isType(TYPE_VEC3))
	{
		control->set(val.getValue());
	}
	else
	{
		CONTROL_ERRS << "Invalid control " << name << llendl;
	}
}
Exemple #2
0
void LLControlGroup::setVector3(const std::string& name, const LLVector3 &val)
{
	LLControlVariable* control = getControl(name);
	
	if (control && control->isType(TYPE_VEC3))
	{
		control->set(val.getValue());
		if(mChangeCallback)
			mChangeCallback(name,llformat("<%f,%f,%f>",val.mV[VX],val.mV[VY],val.mV[VZ]));
	}
	else
	{
		CONTROL_ERRS << "Invalid control " << name << llendl;
	}
}
LLSD lggBeamMapFloater::getMyDataSerialized()
{
	LLSD out;
	LLRect r  = getChild<LLPanel>("beamshape_draw")->getRect();
	for(int i =0; i<(int)dots.size();i++)
	{
		LLSD point;
		lggPoint t = dots[i];
		LLVector3 vec = LLVector3((F32)0.0,(F32)t.x,(F32)t.y);
		vec -= LLVector3((F32)0.0,(F32)r.getCenterX(),r.getCenterY());
		
		point["offset"]= vec.getValue();
		point["color"] = t.c.getValue();

		out[i]=point;
	}
	return out;
}
//static
void LLFloaterSettingsDebug::onCommitSettings(LLUICtrl* ctrl, void* user_data)
{
	LLFloaterSettingsDebug* floaterp = (LLFloaterSettingsDebug*)user_data;

	LLComboBox* settings_combo = floaterp->getChild<LLComboBox>("settings_combo");
	LLControlVariable* controlp = (LLControlVariable*)settings_combo->getCurrentUserdata();

	LLVector3 vector;
	LLVector3d vectord;
	LLRect rect;
	LLColor4 col4;
	LLColor3 col3;
	LLColor4U col4U;
	LLColor4 color_with_alpha;

	switch(controlp->type())
	{		
	  case TYPE_U32:
		controlp->set(floaterp->childGetValue("val_spinner_1"));
		break;
	  case TYPE_S32:
		controlp->set(floaterp->childGetValue("val_spinner_1"));
		break;
	  case TYPE_F32:
		controlp->set(LLSD(floaterp->childGetValue("val_spinner_1").asReal()));
		break;
	  case TYPE_BOOLEAN:
		controlp->set(floaterp->childGetValue("boolean_combo"));
		break;
	  case TYPE_STRING:
		controlp->set(LLSD(floaterp->childGetValue("val_text").asString()));
		break;
	  case TYPE_VEC3:
		vector.mV[VX] = (F32)floaterp->childGetValue("val_spinner_1").asReal();
		vector.mV[VY] = (F32)floaterp->childGetValue("val_spinner_2").asReal();
		vector.mV[VZ] = (F32)floaterp->childGetValue("val_spinner_3").asReal();
		controlp->set(vector.getValue());
		break;
	  case TYPE_VEC3D:
		vectord.mdV[VX] = floaterp->childGetValue("val_spinner_1").asReal();
		vectord.mdV[VY] = floaterp->childGetValue("val_spinner_2").asReal();
		vectord.mdV[VZ] = floaterp->childGetValue("val_spinner_3").asReal();
		controlp->set(vectord.getValue());
		break;
	  case TYPE_RECT:
		rect.mLeft = floaterp->childGetValue("val_spinner_1").asInteger();
		rect.mRight = floaterp->childGetValue("val_spinner_2").asInteger();
		rect.mBottom = floaterp->childGetValue("val_spinner_3").asInteger();
		rect.mTop = floaterp->childGetValue("val_spinner_4").asInteger();
		controlp->set(rect.getValue());
		break;
	  case TYPE_COL4:
		col3.setValue(floaterp->childGetValue("color_swatch"));
		col4 = LLColor4(col3, (F32)floaterp->childGetValue("val_spinner_4").asReal());
		controlp->set(col4.getValue());
		break;
	  case TYPE_COL3:
		controlp->set(floaterp->childGetValue("color_swatch"));
		//col3.mV[VRED] = (F32)floaterp->childGetValue("val_spinner_1").asC();
		//col3.mV[VGREEN] = (F32)floaterp->childGetValue("val_spinner_2").asReal();
		//col3.mV[VBLUE] = (F32)floaterp->childGetValue("val_spinner_3").asReal();
		//controlp->set(col3.getValue());
		break;
	  case TYPE_COL4U:
		col3.setValue(floaterp->childGetValue("color_swatch"));
		col4U.setVecScaleClamp(col3);
		col4U.mV[VALPHA] = floaterp->childGetValue("val_spinner_4").asInteger();
		controlp->set(col4U.getValue());
		break;
	  default:
		break;
	}
}
Exemple #5
0
// Returns number of controls loaded, so 0 if failure
U32 LLControlGroup::loadFromFile(const LLString& filename, BOOL require_declaration, eControlType declare_as)
{
	LLString name;

	LLXmlTree xml_controls;

	if (!xml_controls.parseFile(filename))
	{
		llwarns << "Unable to open control file " << filename << llendl;
		return 0;
	}

	LLXmlTreeNode* rootp = xml_controls.getRoot();
	if (!rootp || !rootp->hasAttribute("version"))
	{
		llwarns << "No valid settings header found in control file " << filename << llendl;
		return 0;
	}

	U32		item = 0;
	U32		validitems = 0;
	S32 version;
	
	rootp->getAttributeS32("version", version);

	// Check file version
	if (version != CURRENT_VERSION)
	{
		llinfos << filename << " does not appear to be a version " << CURRENT_VERSION << " controls file" << llendl;
		return 0;
	}

	LLXmlTreeNode* child_nodep = rootp->getFirstChild();
	while(child_nodep)
	{
		name = child_nodep->getName();		
		
		BOOL declared = controlExists(name);

		if (require_declaration && !declared)
		{
			// Declaration required, but this name not declared.
			// Complain about non-empty names.
			if (!name.empty())
			{
				//read in to end of line
				llwarns << "LLControlGroup::loadFromFile() : Trying to set \"" << name << "\", setting doesn't exist." << llendl;
			}
			child_nodep = rootp->getNextChild();
			continue;
		}

		// Got an item.  Load it up.
		item++;

		// If not declared, assume it's a string
		if (!declared)
		{
			switch(declare_as)
			{
			case TYPE_COL4:
				declareColor4(name, LLColor4::white, "", NO_PERSIST);
				break;
			case TYPE_COL4U:
				declareColor4U(name, LLColor4U::white, "", NO_PERSIST);
				break;
			case TYPE_STRING:
			default:
				declareString(name, LLString::null, "", NO_PERSIST);
				break;
			}
		}

		// Control name has been declared in code.
		LLControlBase *control = getControl(name);

		llassert(control);

		mLoadedSettings.insert(name);
		
		switch(control->mType)
		{
		case TYPE_F32:
			{
				F32 initial = 0.f;

				child_nodep->getAttributeF32("value", initial);

				control->set(initial);
				validitems++;
			}
			break;
		case TYPE_S32:
			{
				S32 initial = 0;

				child_nodep->getAttributeS32("value", initial);

				control->set(initial);
				validitems++;
			}
			break;
		case TYPE_U32:
			{
				U32 initial = 0;
				child_nodep->getAttributeU32("value", initial);
				control->set((LLSD::Integer) initial);
				validitems++;
			}
			break;
		case TYPE_BOOLEAN:
			{
				BOOL initial = FALSE;

				child_nodep->getAttributeBOOL("value", initial);
				control->set(initial);

				validitems++;
			}
			break;
		case TYPE_STRING:
			{
				LLString string;
				child_nodep->getAttributeString("value", string);
				if (string == LLString::null)
				{
					string = "";
				}
				control->set(string);
				validitems++;
			}
			break;
		case TYPE_VEC3:
			{
				LLVector3 vector;

				child_nodep->getAttributeVector3("value", vector);
				control->set(vector.getValue());
				validitems++;
			}
			break;
		case TYPE_VEC3D:
			{
				LLVector3d vector;

				child_nodep->getAttributeVector3d("value", vector);

				control->set(vector.getValue());
				validitems++;
			}
			break;
		case TYPE_RECT:
			{
				//RN: hack to support reading rectangles from a string
				LLString rect_string;

				child_nodep->getAttributeString("value", rect_string);
				std::istringstream istream(rect_string);
				S32 left, bottom, width, height;

				istream >> left >> bottom >> width >> height;

				LLRect rect;
				rect.setOriginAndSize(left, bottom, width, height);

				control->set(rect.getValue());
				validitems++;
			}
			break;
		case TYPE_COL4U:
			{
				LLColor4U color;

				child_nodep->getAttributeColor4U("value", color);
				control->set(color.getValue());
				validitems++;
			}
			break;
		case TYPE_COL4:
			{
				LLColor4 color;
				
				child_nodep->getAttributeColor4("value", color);
				control->set(color.getValue());
				validitems++;
			}
			break;
		case TYPE_COL3:
			{
				LLVector3 color;
				
				child_nodep->getAttributeVector3("value", color);
                control->set(LLColor3(color.mV).getValue());
				validitems++;
			}
			break;
		}

		child_nodep = rootp->getNextChild();
	}

	return validitems;
}
Exemple #6
0
BOOL LLControlGroup::declareVec3(const LLString& name, const LLVector3 &initial_val, const LLString& comment, BOOL persist)
{
	return declareControl(name, TYPE_VEC3, initial_val.getValue(), comment, persist);
}
template <> eControlType get_control_type<LLVector3>(const LLVector3& in, LLSD& out) 
{ 
	out = in.getValue(); 
	return TYPE_VEC3; 
}
Exemple #8
0
template <> LLSD convert_to_llsd<LLVector3>(const LLVector3& in)
{
    return in.getValue();
}
Exemple #9
0
LLSD LLModel::Decomposition::asLLSD() const
{
	LLSD ret;
	
	if (mBaseHull.empty() && mHull.empty())
	{ //nothing to write
		return ret;
	}

	//write decomposition block
	// ["physics_convex"]["HullList"] -- list of 8 bit integers, each entry represents a hull with specified number of points
	// ["physics_convex"]["Position"] -- list of 16-bit integers to be decoded to given domain, encoded 3D points
	// ["physics_convex"]["BoundingVerts"] -- list of 16-bit integers to be decoded to given domain, encoded 3D points representing a single hull approximation of given shape
	
	//get minimum and maximum
	LLVector3 min;
	
	if (mHull.empty())
	{  
		min = mBaseHull[0];
	}
	else
	{
		min = mHull[0][0];
	}

	LLVector3 max = min;

	LLSD::Binary hulls(mHull.size());

	U32 total = 0;

	for (U32 i = 0; i < mHull.size(); ++i)
	{
		U32 size = mHull[i].size();
		total += size;
		hulls[i] = (U8) (size);

		for (U32 j = 0; j < mHull[i].size(); ++j)
		{
			update_min_max(min, max, mHull[i][j]);
		}
	}

	for (U32 i = 0; i < mBaseHull.size(); ++i)
	{
		update_min_max(min, max, mBaseHull[i]);	
	}

	ret["Min"] = min.getValue();
	ret["Max"] = max.getValue();

	LLVector3 range = max-min;

	if (!hulls.empty())
	{
		ret["HullList"] = hulls;
	}

	if (total > 0)
	{
		LLSD::Binary p(total*3*2);

		U32 vert_idx = 0;
		
		for (U32 i = 0; i < mHull.size(); ++i)
		{
			std::set<U64> valid;

			llassert(!mHull[i].empty());

			for (U32 j = 0; j < mHull[i].size(); ++j)
			{
				U64 test = 0;
				const F32* src = mHull[i][j].mV;

				for (U32 k = 0; k < 3; k++)
				{
					//convert to 16-bit normalized across domain
					U16 val = (U16) (((src[k]-min.mV[k])/range.mV[k])*65535);

					if(valid.size() < 3)
					{
						switch (k)
						{
							case 0: test = test | (U64) val; break;
							case 1: test = test | ((U64) val << 16); break;
							case 2: test = test | ((U64) val << 32); break;
						};

						valid.insert(test);
					}
					
					U8* buff = (U8*) &val;
					//write to binary buffer
					p[vert_idx++] = buff[0];
					p[vert_idx++] = buff[1];

					//makes sure we haven't run off the end of the array
					llassert(vert_idx <= p.size());
				}
			}

			//must have at least 3 unique points
			llassert(valid.size() > 2);
		}

		ret["Positions"] = p;
	}

	//llassert(!mBaseHull.empty());

	if (!mBaseHull.empty())
	{
		LLSD::Binary p(mBaseHull.size()*3*2);

		U32 vert_idx = 0;
		for (U32 j = 0; j < mBaseHull.size(); ++j)
		{
			const F32* v = mBaseHull[j].mV;

			for (U32 k = 0; k < 3; k++)
			{
				//convert to 16-bit normalized across domain
				U16 val = (U16) (((v[k]-min.mV[k])/range.mV[k])*65535);

				U8* buff = (U8*) &val;
				//write to binary buffer
				p[vert_idx++] = buff[0];
				p[vert_idx++] = buff[1];

				if (vert_idx > p.size())
				{
					LL_ERRS() << "Index out of bounds" << LL_ENDL;
				}
			}
		}
		
		ret["BoundingVerts"] = p;
	}

	return ret;
}
void LLFloaterSettingsDebug::onCommitSettings()
{
    if (!mCurrentControlVariable)
        return;

    LLVector3 vector;
    LLVector3d vectord;
    LLRect rect;
    LLColor4 col4;
    LLColor3 col3;
    LLColor4U col4U;
    LLColor4 color_with_alpha;

    switch(mCurrentControlVariable->type())
    {
    case TYPE_U32:
        mCurrentControlVariable->set(getChild<LLUICtrl>("val_spinner_1")->getValue());
        break;
    case TYPE_S32:
        mCurrentControlVariable->set(getChild<LLUICtrl>("val_spinner_1")->getValue());
        break;
    case TYPE_F32:
        mCurrentControlVariable->set(LLSD(getChild<LLUICtrl>("val_spinner_1")->getValue().asReal()));
        break;
    case TYPE_BOOLEAN:
        mCurrentControlVariable->set(getChild<LLUICtrl>("boolean_combo")->getValue());
        break;
    case TYPE_STRING:
        mCurrentControlVariable->set(LLSD(getChild<LLUICtrl>("val_text")->getValue().asString()));
        break;
    case TYPE_VEC3:
        vector.mV[VX] = (F32)getChild<LLUICtrl>("val_spinner_1")->getValue().asReal();
        vector.mV[VY] = (F32)getChild<LLUICtrl>("val_spinner_2")->getValue().asReal();
        vector.mV[VZ] = (F32)getChild<LLUICtrl>("val_spinner_3")->getValue().asReal();
        mCurrentControlVariable->set(vector.getValue());
        break;
    case TYPE_VEC3D:
        vectord.mdV[VX] = getChild<LLUICtrl>("val_spinner_1")->getValue().asReal();
        vectord.mdV[VY] = getChild<LLUICtrl>("val_spinner_2")->getValue().asReal();
        vectord.mdV[VZ] = getChild<LLUICtrl>("val_spinner_3")->getValue().asReal();
        mCurrentControlVariable->set(vectord.getValue());
        break;
    case TYPE_RECT:
        rect.mLeft = getChild<LLUICtrl>("val_spinner_1")->getValue().asInteger();
        rect.mRight = getChild<LLUICtrl>("val_spinner_2")->getValue().asInteger();
        rect.mBottom = getChild<LLUICtrl>("val_spinner_3")->getValue().asInteger();
        rect.mTop = getChild<LLUICtrl>("val_spinner_4")->getValue().asInteger();
        mCurrentControlVariable->set(rect.getValue());
        break;
    case TYPE_COL4:
        col3.setValue(getChild<LLUICtrl>("val_color_swatch")->getValue());
        col4 = LLColor4(col3, (F32)getChild<LLUICtrl>("val_spinner_4")->getValue().asReal());
        mCurrentControlVariable->set(col4.getValue());
        break;
    case TYPE_COL3:
        mCurrentControlVariable->set(getChild<LLUICtrl>("val_color_swatch")->getValue());
        //col3.mV[VRED] = (F32)getChild<LLUICtrl>("val_spinner_1")->getValue().asC();
        //col3.mV[VGREEN] = (F32)getChild<LLUICtrl>("val_spinner_2")->getValue().asReal();
        //col3.mV[VBLUE] = (F32)getChild<LLUICtrl>("val_spinner_3")->getValue().asReal();
        //mCurrentControlVariable->set(col3.getValue());
        break;
    case TYPE_COL4U:
        col3.setValue(getChild<LLUICtrl>("val_color_swatch")->getValue());
        col4U.setVecScaleClamp(col3);
        col4U.mV[VALPHA] = getChild<LLUICtrl>("val_spinner_4")->getValue().asInteger();
        mCurrentControlVariable->set(col4U.getValue());
        break;
    default:
        break;
    }
}
Exemple #11
0
BOOL LLControlGroup::declareVec3(const std::string& name, const LLVector3 &initial_val, const std::string& comment, BOOL persist)
{
	return declareControl(name, TYPE_VEC3, initial_val.getValue(), comment, SANITY_TYPE_NONE, LLSD(), std::string(""), persist);
}