khanat-opennel-code/code/ryzom/client/src/r2/tool_draw_prim.cpp

837 lines
22 KiB
C++

// Ryzom - MMORPG Framework <http://dev.ryzom.com/projects/ryzom/>
// 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 "stdpch.h"
//
#include "../interface_v3/group_map.h"
//
#include "tool_draw_prim.h"
#include "game_share/object.h"
#include "dmc/idmc.h"
#include "editor.h"
#include "r2_config.h"
#include "object_factory_client.h"
#include "displayer_visual_group.h"
#include "tool_maintained_action.h"
//
#include "nel/misc/vectord.h"
#include "nel/misc/i18n.h"
#include "nel/misc/polygon.h"
//
// tmp tmp
#include "nel/gui/ctrl_quad.h"
using namespace NLMISC;
namespace R2
{
// ***************************************************************
CToolDrawPrim::CToolDrawPrim(TPrimType primType, CInstance *extending /*= NULL*/)
{
_NumPoints = 0;
_ValidPos = false;
_PrimType = primType;
_MustClose = false;
_PrimInitialized = false;
_ValidPrim = true;
_DistinctLastPoint = true;
_ExtendedPrimitive = extending;
_Extending = (_ExtendedPrimitive != NULL);
_StartNumPoints = 0;
_InaccessibleParts = false;
_Commited = false;
_ForceShowPrims = false;
}
// ***************************************************************
bool CToolDrawPrim::canTerminate() const
{
//H_AUTO(R2_CToolDrawPrim_canTerminate)
return ((_PrimType == Road && _NumPoints >= 1) || _NumPoints >= 3) && _ValidPrim;
}
// ***************************************************************
const char *CToolDrawPrim::getToolUIName() const
{
//H_AUTO(R2_CToolDrawPrim_getToolUIName)
return _PrimType == Road ? "drawRoad" : "drawRegion";
}
// ***************************************************************
bool CToolDrawPrim::init(const CLuaObject &parameters)
{
//H_AUTO(R2_CToolDrawPrim_init)
_Points.clear();
_PrimLook.init(parameters["Look"]);
if (!parameters["InvalidLook"].isNil())
{
_PrimLookInvalid.init(parameters["InvalidLook"]);
}
else
{
_PrimLookInvalid = _PrimLook;
}
if (!parameters["CanCloseLook"].isNil())
{
_PrimLookCanClose.init(parameters["CanCloseLook"]);
}
else
{
_PrimLookCanClose = _PrimLook;
}
/*
if (!parameters["InaccessibleLook"].isNil())
{
_PrimLookInaccessible.init(parameters["InaccessibleLook"]);
}
else
{
_PrimLookInaccessible = _PrimLook;
}
*/
//TMP TMP hardcoded for first test
_PrimLookInaccessible.init(getEditor().getEnv()["PrimRender"]["RoadLookInaccessible"]);
//
_InaccessiblePrim.setLook(_PrimLookInaccessible);
//
CLuaObject vertices = parameters["Vertices"];
if (vertices.isTable())
{
// if start points where given, use them
ENUM_LUA_TABLE(vertices, it)
{
CLuaObject &vertex = it.nextValue();
_Points.push_back(NLMISC::CVector((float) vertex["x"].toNumber(), (float) vertex["y"].toNumber(), (float) vertex["z"].toNumber()));
}
}
if (!parameters["ExtendedPrimitiveId"].isNil())
{
std::string extendedPrimitiveId = parameters["ExtendedPrimitiveId"];
_ExtendedPrimitive = getEditor().getInstanceFromId(extendedPrimitiveId);
if (!_ExtendedPrimitive)
{
_Extending = false;
nlwarning("Can't extend primitive with id %s", extendedPrimitiveId.c_str());
return false;
}
_Extending = true;
}
_CancelFunc = parameters["OnCancel"];
_CookieKey = parameters["CookieKey"].toString();
_CookieValue = parameters["CookieValue"];
_PrimType = parameters["Type"].toString() == "Region" ? Region : Road;
_Prim.setLook(_PrimLook);
_NumPoints = (uint)_Points.size();
if (!parameters["ForceShowPrims"].isNil())
{
_ForceShowPrims = parameters["ForceShowPrims"].toBoolean();
}
if (!parameters["SelectInstance"].isNil())
{
_SelectInstance = parameters["SelectInstance"].toBoolean();
}
else
{
_SelectInstance = true;
}
CGroupMap *worldMap = getWorldMap();
if (worldMap)
{
worldMap->addDeco(&_Prim); // display primitive on the map
}
return true;
}
// ***************************************************************
void CToolDrawPrim::updateAfterRender()
{
//H_AUTO(R2_CToolDrawPrim_updateAfterRender)
}
// ***************************************************************
void CToolDrawPrim::removeFromWorldMap()
{
//H_AUTO(R2_CToolDrawPrim_removeFromWorldMap)
CGroupMap *worldMap = getWorldMap();
if (worldMap)
{
if (_Prim.isAddedToWorldMap())
{
worldMap->removeDeco(&_Prim);
}
if (_InaccessiblePrim.isAddedToWorldMap())
{
worldMap->removeDeco(&_InaccessiblePrim);
}
}
}
// ***************************************************************
void CToolDrawPrim::cancel()
{
//H_AUTO(R2_CToolDrawPrim_cancel)
if (_ExtendedPrimitive)
{
CDisplayerVisualGroup *dv = dynamic_cast<CDisplayerVisualGroup *>(_ExtendedPrimitive->getDisplayerVisual());
if (dv)
{
dv->setActiveRecurse(true);
}
}
removeFromWorldMap();
if (!_Commited)
{
if (_CancelFunc.isFunction())
{
_CancelFunc.callNoThrow(0, 0);
}
}
}
// ***************************************************************
void CToolDrawPrim::setPrimLook(bool closed, bool lastEdgeIsValid, bool valid)
{
//H_AUTO(R2_CToolDrawPrim_setPrimLook)
CPrimLook *look;
if (!valid) look = &_PrimLookInvalid;
else if (closed) look = &_PrimLookCanClose;
else look = &_PrimLook;
look->LastEdgeIsValid = lastEdgeIsValid;
_Prim.setLook(*look);
}
// ***************************************************************
void CToolDrawPrim::updateBeforeRender()
{
//H_AUTO(R2_CToolDrawPrim_updateBeforeRender)
doUpdateBeforeRender();
CGroupMap *worldMap = getWorldMap();
if (worldMap && !_InaccessibleParts && _InaccessiblePrim.isAddedToWorldMap())
{
worldMap->removeDeco(&_InaccessiblePrim); // display primitive on the map
}
}
// ***************************************************************
void CToolDrawPrim::doUpdateBeforeRender()
{
//H_AUTO(R2_CToolDrawPrim_doUpdateBeforeRender)
if (_Extending && !_ExtendedPrimitive)
{
cancel();
return;
}
_MustClose = false;
// Build vector for direction pointed by mouse in world
sint32 mouseX, mouseY;
getMousePos(mouseX, mouseY);
if (!isInScreen(mouseX, mouseY))
{
// mouse not in screen so don't display the last point
_Points.resize(_NumPoints);
_Prim.setVertices(_Points);
updateValidityFlag(false);
setPrimLook(false, true, _ValidPrim);
_Prim.addDecalsToRenderList();
return;
}
sint32 autoPanDx, autoPanDy;
if (_NumPoints >= 1)
{
handleWorldMapAutoPan(autoPanDx, autoPanDy);
}
//
CTool::CWorldViewRay worldViewRay;
//
computeWorldViewRay(mouseX, mouseY, worldViewRay);
//
_ValidPos = false;
CVector inter;
CVector wpPos;
TRayIntersectionType interType = computeLandscapeRayIntersection(worldViewRay, inter);
switch(interType)
{
case NoIntersection:
if (worldViewRay.OnMiniMap)
{
_Points.resize(_NumPoints);
_Prim.setVertices(_Points);
updateValidityFlag(false);
setPrimLook(false, true, _ValidPrim);
_Prim.addDecalsToRenderList();
setMouseCursor("curs_stop.tga");
return;
}
// no collision, can't drop entity
wpPos = worldViewRay.Origin + 3.f * worldViewRay.Dir;
break;
case ValidPacsPos:
wpPos = inter;
_ValidPos = isValid2DPos(inter); // good pos to drop entity
break;
case InvalidPacsPos:
wpPos = inter;
break;
default:
nlassert(0);
break;
}
// If there are at least 3 vertices and the primitive is a region, then see whether mouse
// is near the first vertex -> in this case, propose to the user to close the primitive
// If landscape is intersected too, then the vertex must be nearer then the first vertex
if (_PrimType == Region && _NumPoints >= 3)
{
bool canClose = false;
CGroupMap *gm = isMouseOnWorldMap();
if (gm)
{
CViewBitmap *bm = _Prim.getWorldMapVertexView(0);
if (bm)
{
canClose = bm->isIn(mouseX, mouseY);
}
}
else
{
if (!_Prim.getVerticesShapeInstance().empty())
{
if (!_Prim.getVerticesShapeInstance()[0].empty())
{
NLMISC::CAABBox vertexBBox;
_Prim.getVerticesShapeInstance()[0].getShapeAABBox(vertexBBox);
vertexBBox.setCenter(_Points[0]);
if (vertexBBox.intersect(worldViewRay.Origin, worldViewRay.Origin + 200.f * worldViewRay.Dir))
{
// if vertex nearer than landscape
bool landscapeNearest = false;
if (interType != NoIntersection)
{
// TODO nico : the test is not exact : should use intersection with the bbox to do
// length comparison over the same line ...
landscapeNearest = (wpPos - worldViewRay.Origin).norm() < (_Points[0] - worldViewRay.Origin).norm();
}
canClose = !landscapeNearest;
}
}
}
}
if (canClose)
{
_Points.resize(_NumPoints);
_Prim.setVertices(_Points);
updateValidityFlag(false);
setPrimLook(true, true, _ValidPrim); // show a closed polygon
_MustClose = true;
setMouseCursor("curs_pick.tga");
_Prim.addDecalsToRenderList();
return;
}
}
_Prim.setEmissive(CRGBA::Black);
//
_Points.resize(_NumPoints + 1);
if (_Points.size() >= 2)
{
_DistinctLastPoint = (_Points[_NumPoints] != _Points[_NumPoints - 1]);
}
else
{
_DistinctLastPoint = true;
}
_Points.back() = wpPos;
_Prim.setVertices(_Points);
updateValidityFlag(!_ValidPos);
// updateValidityFlag(interType == NoIntersection);
setPrimLook(false, _ValidPos, _ValidPrim);
// change mouse depending on result
if (!isMouseOnUI() || isMouseOnWorldMap() || !_ValidPrim)
{
setMouseCursor(_ValidPos /* && !_InaccessibleParts */ ? "curs_create.tga" : "curs_stop.tga");
}
else
{
setMouseCursor("curs_create.tga");
}
_Prim.addDecalsToRenderList();
CGroupMap *worldMap = getWorldMap();
//static CCtrlQuad *testQuad = NULL;
if (_InaccessibleParts)
{
/*if (!testQuad)
{
testQuad = new CCtrlQuad;
testQuad->setModulateGlobalColor(false);
float thickness = 256.f;
testQuad->setQuad(CVector(0.f, thickness, 0.f), CVector(thickness * 2.f, thickness, 0.f), thickness);
testQuad->setTexture("*accessibility_texture*");
worldMap->addCtrl(testQuad);
testQuad->setParent(worldMap);
}*/
if (worldMap && !_InaccessiblePrim.isAddedToWorldMap())
{
worldMap->addDeco(&_InaccessiblePrim); // display primitive on the map
//
}
updateInaccessiblePrimRenderLook(_InaccessiblePrim);
_InaccessiblePrim.setVertices(_Points);
_InaccessiblePrim.addDecalsToRenderList();
}
// TMP TMP
static volatile bool testDecal = false;
if (testDecal)
{
R2::CScenarioEntryPoints::CCompleteIsland *id = getEditor().getIslandCollision().getCurrIslandDesc();
if (id)
{
CMatrix m;
m.setScale(CVector(40000.f, 40000.f, 40000.f));
m.setPos(CVector(0.f, -40000.f, 0.f));
_TestDecal.setWorldMatrix(m);
_TestDecal.setCustomUVMatrix(true, getEditor().getIslandCollision().getWorldToAccessibilityTexMat(true));
_TestDecal.setTexture("*accessibility_texture*");
_TestDecal.addToRenderList();
}
}
}
// ***************************************************************
void CToolDrawPrim::updateInaccessiblePrimRenderLook(CPrimRender &dest)
{
//H_AUTO(R2_CToolDrawPrim_updateInaccessiblePrimRenderLook)
double duration = CV_InaccessiblePosAnimDurationInMS.get();
if (duration <= 0) duration = 0.1;
CRGBA color = blend(CV_InaccessiblePosColor0.get(),
CV_InaccessiblePosColor1.get(),
0.5f + 0.5f * (float) cos(NLMISC::Pi * fmod((double) T1, duration) / duration));
CPrimLook look = dest.getLook();
look.EdgeLook.WorldMapColor = color;
look.EdgeLook.DecalColor = color;
dest.setLook(look);
dest.setCustomWorldMapEdgeUVMatrix(true, getEditor().getIslandCollision().getWorldToAccessibilityTexMat());
dest.setCustomDecalEdgeUVMatrix(true, getEditor().getIslandCollision().getWorldToAccessibilityTexMat(true)); // cropped version for decal rendering
}
// ***************************************************************
bool CToolDrawPrim::onMouseLeftButtonClicked()
{
//H_AUTO(R2_CToolDrawPrim_onMouseLeftButtonClicked)
if (!checkRoomLeft())
{
displayNoMoreRoomLeftMsg();
return true;
}
if (_ValidPos /*&& !_InaccessibleParts*/ && _DistinctLastPoint)
{
++ _NumPoints;
}
if (_ValidPos)
{
startDoubleClickCheck();
}
return true;
}
// ***************************************************************
bool CToolDrawPrim::onMouseLeftButtonDown()
{
//H_AUTO(R2_CToolDrawPrim_onMouseLeftButtonDown)
if (_MustClose && _ValidPos)
{
commit();
captureMouse(); // mouse will be released on "mouse up" by the default tool
return true;
}
if (!checkDoubleClick()) return false;
if (canTerminate())
{
// the 2 last points must have a different position
commit();
CToolMaintainedAction *tma = dynamic_cast<CToolMaintainedAction *>(getEditor().getCurrentTool());
if (tma)
{
tma->markPreviousToolClickEnd();
}
}
return true;
}
// ***************************************************************
void CToolDrawPrim::commit()
{
//H_AUTO(R2_CToolDrawPrim_commit)
if (_Extending && !_ExtendedPrimitive)
{
cancel();
return;
}
removeFromWorldMap();
_Points.resize(_NumPoints);
if (_Points.empty()) return;
// send network command to create a new road
CObject *desc = NULL;
if (!_Extending)
{
getDMC().newAction(NLMISC::CI18N::get(_PrimType == Road ? "uiR2EDCreateRouteAction" : "uiR2EDCreateZoneAction"));
}
else
{
getDMC().newAction(NLMISC::CI18N::get(_PrimType == Road ? "uiR2EDExtendRouteAction" : "uiR2EDExtendZoneAction"));
}
if (!_Extending)
{
// creating a new primitive, rather than growing an existing one
std::string className = _PrimType == Road ? "Road": "Region";
desc = getDMC().newComponent(className);
}
if (desc || _Extending)
{
CObject *points = NULL;
if (!_Extending)
{
std::string instanceId = getString(desc, "InstanceId");
if (!instanceId.empty())
{
// ask a flag to prompt user to enter name for this object when it is created
getEditor().setCookie(instanceId, "AskName", true);
if (_CookieValue.isValid())
{
if (!_CookieKey.empty() && !_CookieValue.isNil())
{
getEditor().setCookie(instanceId, _CookieKey, _CookieValue);
}
}
getEditor().setCookie(instanceId, "Select", _SelectInstance);
}
static volatile bool wantDump = false;
if (wantDump)
{
desc->dump();
}
points = desc->getAttr("Points");
for(uint k = 0; k < _Points.size(); ++k)
{
CObject *wp = getDMC().newComponent(_PrimType == Road ? "WayPoint" : "RegionVertex");
if (!wp) continue;
wp->setObject("Position", buildVector(CVectorD(_Points[k])));
points->insert("", wp, -1);
}
}
if (!_Extending)
{
// set readable name
ucstring readableName = NLMISC::CI18N::get(_PrimType == Road ? "uiR2EDNameBotRoad" : "uiR2EDNameBotRegion");
readableName = getEditor().genInstanceName(readableName);
desc->set("Name", readableName.toUtf8());
// send creation command
// tmp : static npc counter
// add in component list of default feature
if (getEditor().getDefaultFeature())
{
getDMC().requestInsertNode(getEditor().getDefaultFeature(getEditor().getBaseAct())->getId(),
"Components",
-1,
"",
desc);
}
//
delete desc;
// NB : if display of primitives is 'hide all', then force to 'show all', else
// the new prim wouldn't be visible
if (_ForceShowPrims)
{
if (getEditor().getEnv()["PrimDisplayVisible"].toBoolean() == false ||
getEditor().getEnv()["PrimDisplayContextualVisibility"].toBoolean() == true)
{
getEditor().callEnvMethod("notifyPrimDisplayShowAll", 0, 0);
}
}
}
else
{
nlassert(!desc);
CVectorD offset = CVectorD::Null;
CDisplayerVisualGroup *dv = dynamic_cast<CDisplayerVisualGroup *>(_ExtendedPrimitive->getDisplayerVisual());
if (dv)
{
offset = - dv->getWorldPos();
}
std::vector<CDisplayerVisual *> sons;
dv->getSons(sons);
for(uint k = _StartNumPoints - 1; k > _Points.size() - 1; --k)
{
getDMC().requestEraseNode(sons[k]->getDisplayedInstance()->getId(), "", -1);
}
for (uint k = 0; k < std::min(_StartNumPoints, uint(_Points.size())); ++k)
{
// change modified vertices
CVector newWorldPos = CVectorD(_Points[k]).asVector();
if (newWorldPos != _InitialPoints[k])
{
CObject *wp = getDMC().newComponent(_PrimType == Road ? "WayPoint" : "RegionVertex");
if (wp)
{
CObject *newPos = buildVector(offset + CVectorD(_Points[k]));
getDMC().requestSetNode(sons[k]->getDisplayedInstance()->getId(), "Position", newPos);
delete newPos;
}
}
}
// insert newly created vertices
for(uint k = _StartNumPoints; k < _Points.size(); ++k)
{
CObject *wp = getDMC().newComponent(_PrimType == Road ? "WayPoint" : "RegionVertex");
if (!wp) continue;
wp->setObject("Position", buildVector(offset + CVectorD(_Points[k])));
getDMC().requestInsertNode(_ExtendedPrimitive->getId(), "Points", -1, "", wp);
delete wp;
}
if (dv)
{
dv->setActiveRecurse(true);
}
}
}
_Commited = true;
getEditor().setCurrentTool(NULL); // set the default tool
return;
}
// ***************************************************************
bool CToolDrawPrim::onMouseRightButtonClicked()
{
//H_AUTO(R2_CToolDrawPrim_onMouseRightButtonClicked)
// TMP : exception for primitive drawing : right button finish the road
if (!checkRoomLeft())
{
displayNoMoreRoomLeftMsg();
return true;
}
if (_ValidPos && _DistinctLastPoint)
{
if (!_MustClose)
{
++ _NumPoints;
}
if (canTerminate())
{
commit();
}
}
return true;
// cancel the drawing
//getEditor().setCurrentTool(NULL);
//return true;
}
// ***************************************************************
bool CToolDrawPrim::onDeleteCmd()
{
//H_AUTO(R2_CToolDrawPrim_onDeleteCmd)
CTool::TSmartPtr hold(this);
if (_NumPoints == 0)
{
if (_Extending)
{
getDMC().newAction(CI18N::get("uiR2EDDeleteRoad") + _ExtendedPrimitive->getDisplayName());
// just erase the road
getDMC().requestEraseNode(_ExtendedPrimitive->getId(), "", -1);
getDMC().getActionHistoric().endAction();
}
// cancel the drawing
getEditor().setCurrentTool(NULL);
}
else
{
-- _NumPoints;
_Points.resize(_NumPoints);
}
return true;
}
// ***************************************************************
bool CToolDrawPrim::isValidPolyShape(bool ignoreLast, std::list<CPolygon> &splitPoly) const
{
//H_AUTO(R2_CToolDrawPrim_isValidPolyShape)
splitPoly.clear();
if(_Points.size() <= 3)
{
return true;
}
// test that no self-intersection is found
static NLMISC::CPolygon2D poly2D;
poly2D.Vertices.resize(_Points.size());
for(uint k = 0; k < _Points.size(); ++k)
{
poly2D.Vertices[k] = _Points[k];
}
if (poly2D.selfIntersect()) return false;
CPolygon poly;
poly.Vertices = _Points;
if (poly.Vertices.back() == poly.Vertices[poly.Vertices.size() - 2] || ignoreLast)
{
poly.Vertices.pop_back(); // duplicated point at the end will always fails the test, so remove it
}
bool validPrim = poly.toConvexPolygons(splitPoly, CMatrix::Identity);
if (!validPrim)
{
std::reverse(poly.Vertices.begin(), poly.Vertices.end());
validPrim = poly.toConvexPolygons(splitPoly, CMatrix::Identity);
}
return validPrim;
}
// ***************************************************************
bool CToolDrawPrim::testAccessibleEdges(bool ignoreLast)
{
//H_AUTO(R2_CToolDrawPrim_testAccessibleEdges)
uint numPoints = (uint)_Points.size();
if (_PrimType == Road)
{
numPoints -= ignoreLast ? 2 : 1;
}
else
{
numPoints -= ignoreLast ? 2 : 0;
}
for (sint k = 0; k < (sint) numPoints; ++k)
{
if (!getEditor().getIslandCollision().isValidSegment(_Points[k], _Points[(k + 1) % _Points.size()]))
{
return false;
}
}
return true;
}
// ***************************************************************
void CToolDrawPrim::updateValidityFlag(bool ignoreLast)
{
//H_AUTO(R2_CToolDrawPrim_updateValidityFlag)
_ValidPrim = true;
if (_PrimType != Road)
{
std::list<CPolygon> splitPoly;
if (!isValidPolyShape(ignoreLast, splitPoly))
{
_ValidPrim = false;
}
}
}
/*
{
nlassert(0); // old code
if (_LastPoints.size() == _Points.size() && std::equal(_Points.begin(), _Points.end(), _LastPoints.begin()))
return; // not modified, so last flag remains valid
_InaccessibleParts = false;
_LastPoints = _Points;
// CHANGE: accessibility for edges not tested anymore ...
//
// bool accessible = testAccessibleEdges(ignoreLast);
// _InaccessibleParts = !accessible;
//
_InaccessibleParts = false;
sint testPointIndex = _Points.size() - (ignoreLast ? 2 : 1);
if (testPointIndex < 0)
{
_ValidPrim = false;
return;
}
// change : valid to create if current mouse pos is valid (test 0.5f meters around)
CVector2f testPos = _Points[testPointIndex];
_ValidPrim = getEditor().getIslandCollision().isValidPos(testPos);
if (!_ValidPrim) return;
// old test : all parts crossed by the edges needed to be accessible
//
// if (!accessible)
// {
// _ValidPrim = false;
//}
if (_PrimType != Road)
{
std::list<CPolygon> splitPoly;
if (!isValidPolyShape(ignoreLast, splitPoly))
{
_ValidPrim = false;
}
}
}*/
// ***************************************************************
void CToolDrawPrim::onActivate()
{
//H_AUTO(R2_CToolDrawPrim_onActivate)
setContextHelp(CI18N::get("uiR2EDToolDrawPrim"));
if (_ExtendedPrimitive)
{
CDisplayerVisualGroup *dv = dynamic_cast<CDisplayerVisualGroup *>(_ExtendedPrimitive->getDisplayerVisual());
if (!dv)
{
cancel();
return;
}
else
{
dv->setActiveRecurse(false); // hide the primitive being extended, because we display
// our own version until we are finished
}
std::vector<CDisplayerVisual *> sons;
dv->getSons(sons);
for(uint k = 0; k < sons.size(); ++k)
{
_Points.push_back(sons[k]->getWorldPos().asVector());
}
_NumPoints = (uint)_Points.size();
_StartNumPoints = _NumPoints;
_InitialPoints = _Points;
}
}
// ***************************************************************
bool CToolDrawPrim::checkRoomLeft()
{
//H_AUTO(R2_CToolDrawPrim_checkRoomLeft)
return _NumPoints < PrimMaxNumPoints;
}
// ***************************************************************
void CToolDrawPrim::displayNoMoreRoomLeftMsg()
{
//H_AUTO(R2_CToolDrawPrim_displayNoMoreRoomLeftMsg)
getEditor().callEnvMethod("noMoreRoomLeftInPrimitveMsg", 0, 0);
}
} // R2