// Ryzom - MMORPG Framework // 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 . ///////////// // INCLUDE // ///////////// #include "stdpch.h" // Client #include "misc.h" #include "entity_animation_manager.h" #include "entities.h" #include "sheet_manager.h" #include "interface_v3/interface_manager.h" #include "continent_manager.h" #include "world_database_manager.h" #include "client_cfg.h" #include "user_entity.h" #include "net_manager.h" #include "sky_render.h" // Client Sheets #include "client_sheets/item_sheet.h" // 3D #include "nel/3d/u_instance.h" #include "nel/3d/u_instance_material.h" #include "nel/3d/u_scene.h" #include "nel/3d/u_driver.h" #include "nel/3d/material.h" // Misc #include "nel/misc/file.h" #include "nel/misc/i_xml.h" #include "nel/misc/o_xml.h" #include "nel/misc/fast_floor.h" #include "nel/misc/noise_value.h" #include "nel/misc/bitmap.h" #include "nel/misc/system_utils.h" // Game Share #include "game_share/player_visual_properties.h" #include "game_share/seeds.h" // Georges #include "nel/georges/u_form.h" #include "nel/georges/u_form_elm.h" #include "nel/georges/u_form_loader.h" /////////// // USING // /////////// using namespace NL3D; using namespace NLMISC; using namespace std; using namespace NLGEORGES; //////////// // EXTERN // //////////// extern CEntityAnimationManager *EAM; extern UDriver *Driver; extern UMaterial GenericMat; //////////// // GLOBAL // //////////// const uint RecordVersion = 1; std::set LodCharactersNotFound; ////////////// // FUNCTION // ////////////// //----------------------------------------------- // keepIn_NegPi_Pi : //----------------------------------------------- double keepIn_NegPi_Pi(double angle) { if(angle > Pi) angle = -2*Pi+angle; else if(angle < -Pi) angle = 2*Pi+angle; return angle; }// keepIn_NegPi_Pi // //----------------------------------------------- // angleBetween2Vect : //----------------------------------------------- double angleBetween2Vect(const CVectorD &from, const CVectorD &to) { // Get the final local head Yaw. CVector vj = from; vj.z = 0; CVector vk(0,0,1); CVector vi = vj^vk; CMatrix mat; mat.setRot(vi,vj,vk,true); CVector localDir = mat.inverted() * to; return atan2(-localDir.x, localDir.y); }// angleBetween2Vect // //----------------------------------------------- // makeUp : // \param face : pointer on the face to make up (must not be null). // \param idMakeUp : index of the make-up to apply. // \warning This function does not check if 'face' is valid. //----------------------------------------------- void makeUp(NL3D::UInstance face, sint idMakeUp) { static const char *tattooStr = "visage_makeup"; // look for tattoo texture uint numMat = face.getNumMaterials(); std::string texFilename; for(uint k = 0; k < numMat; ++k) { UInstanceMaterial im = face.getMaterial(k); sint numTex = im.getLastTextureStage(); for(sint l = 0; l <= numTex; ++l) { if (im.isTextureFile(l)) // one texture from a file ? { // see if it is the texture used for tattoos texFilename = im.getTextureFileName(l); // nlinfo("visage tex = %s", texFilename.c_str()); std::string::size_type pos = texFilename.find(tattooStr, 0); if (pos != std::string::npos) { uint charIndex = (uint)(pos + strlen(tattooStr)); if (texFilename.length() >= charIndex + 2) { texFilename[charIndex] = '0' + (unsigned char) (idMakeUp / 10); texFilename[charIndex + 1] = '0' + (unsigned char) (idMakeUp % 10); im.setTextureFileName(texFilename, l); } } } } } }// makeUp // //----------------------------------------------- // qStart is the quaterion at t=0, // qEnd is the quaterion at t=TAnimEnd, // time is between 0 and 1. (1=> TAnimEnd) //----------------------------------------------- CQuat applyRotationFactor(CQuat in, float rotFactor, CQuat qStart, CQuat qEnd, float time) { H_AUTO ( RZ_Client_Apply_Rotation_Factor ) CQuat qRotTotal1, qRotTotal2; qStart.invert(); qRotTotal1= qEnd*qStart; // qRotTotal2.makeClosest(CQuat::Identity); qRotTotal2= CQuat::slerp(CQuat::Identity, qRotTotal1, rotFactor); // apply animation factor // qRotTotal1.makeClosest(CQuat::Identity); // qRotTotal2.makeClosest(CQuat::Identity); CQuat qRotDelta1= CQuat::slerp(CQuat::Identity, qRotTotal1, time); CQuat qRotDelta2= CQuat::slerp(CQuat::Identity, qRotTotal2, time); // remove normal rotation, and apply rotFactor-ed one. qRotDelta1.invert(); return qRotDelta2 * qRotDelta1 * in; }// applyRotationFactor // //----------------------------------------------- // computeShortestAngle : // Compute the angle between a source and a destination using the shortest way. // \param from : angle between -Pi and Pi; // \param to : angle between -Pi and Pi; //----------------------------------------------- double computeShortestAngle(double from, double to) { double difAngle = to - from; if(difAngle < -Pi) // Angle in the wrong direction. difAngle += 2.0*Pi; else if(difAngle > Pi) // Angle in the wrong direction. difAngle -= 2.0*Pi; return difAngle; }// computeShortestAngle // //----------------------------------------------- // readStringArray : //----------------------------------------------- void readStringArray(const std::string &filename, NLGEORGES::UFormLoader *formLoader, NLMISC::CSmartPtr &form, std::map &container) { // Read an array of strings if(formLoader) { form = formLoader->loadForm(filename.c_str()); if(form) { // Get the root. const UFormElm& rootElmt = form->getRootNode(); // Get animations. const UFormElm *elmt = 0; if(rootElmt.getNodeByName(&elmt, "array") == false) nlwarning("readStringArray: the node 'array' is not referenced."); // If the array is not empty (in fact exist). if(elmt) { // Get the array size uint arraySize; elmt->getArraySize(arraySize); // If there is at least 1 animation. if(arraySize > 0) { // Get all animation for the State. for(uint i = 0; igetArrayNodeName(nodeName, i)) { if(elmt->getArrayValue(stringName, i)) container.insert(make_pair(nodeName, stringName)); else nlwarning("readStringArray: no string associated to the node '%d(%s)'.", i, nodeName.c_str()); } else nlwarning("readStringArray: node '%d', index valid.", i); } } } else nlwarning("readStringArray: array node not allocated."); } else nlwarning("readStringArray: cannot create the form from file '%s'.", filename.c_str()); } else nlwarning("readStringArray: the Loader is not allocated."); }// readStringArray // //----------------------------------------------- // mode2Anim : // Return the animset base name corresponding to the mode. // \param mode : the mode to convert. // \param result : this will be filed with the mode animset name. // \return bool : 'true' if 'result' is filled, 'false' if left untouched. //----------------------------------------------- bool mode2Anim(MBEHAV::EMode mode, string &result) { static bool init = false; static string mode2AnimArray[MBEHAV::NUMBER_OF_MODES]; // Is the mode valid uint index = (uint)mode; if(index >= MBEHAV::NUMBER_OF_MODES) return false; // Initialize if(!init) { // Read mode2animset file std::map mode2Animset; const std::string filename = "mode2animset.string_array"; NLGEORGES::UFormLoader *formLoader = UFormLoader::createLoader(); if(formLoader) { NLMISC::CSmartPtr form; readStringArray(filename, formLoader, form, mode2Animset); } else nlwarning("mode2Anim: cannot create de loader"); NLGEORGES::UFormLoader::releaseLoader(formLoader); // Initialize the static vector. //------------------------------- for(uint i=0; i::const_iterator it = mode2Animset.find(modeName); if(it != mode2Animset.end()) { mode2AnimArray[i] = (*it).second; if(mode2AnimArray[i].empty()) nlwarning("mode2Anim: The mode '%d(%s)' has an empty animset associated.", i, modeName.c_str ()); } // No animset for the mode. else { mode2AnimArray[i].clear(); nlwarning("mode2Anim: no animset associated to the mode %d'%s'.", i, modeName.c_str()); } } // Init Done now. init = true; } // Fill the result. // Check name. if(mode2AnimArray[index].empty()) result = mode2AnimArray[MBEHAV::NORMAL]; else result = mode2AnimArray[index]; // Result filled. return true; }// mode2Anim // //----------------------------------------------- // computeAnimSet : // Compute the animation set to use according to weapons, mode and race. // \param animSet : result pointer. // \param mode : the mode. // \param animSetBaseName : basic name to construc the complet name of the animSet. // \param leftHand : animSet name for the left hand. // \param rightHand : animSet name for the right hand. // \param lookAtItemsInHands : compute animset according to items in hands or not. // \return bool : 'true' if the new animation set is the right one. 'false' if the one choosen is not the right one. //----------------------------------------------- bool computeAnimSet(const CAnimationSet *&animSet, MBEHAV::EMode mode, const string &animSetBaseName, const CItemSheet *itemLeftHand, const CItemSheet *itemRightHand, bool lookAtItemsInHands) { static std::set UnknownAnimSet; if(EAM == 0) { if(!ClientCfg.Light) { nlwarning("computeAnimSet: EAM not allocated -> cannot compute the anim set."); } return false; } string animSetRight, animSetLeft; if(itemLeftHand) animSetLeft = itemLeftHand->getAnimSet(); if(itemRightHand) animSetRight = itemRightHand->getAnimSet(); // Get the animset name from the mode. string result; if(!mode2Anim(mode, result)) { nlwarning("computeAnimSet: unknown mode '%d'.", mode); result = "default"; } // Compute the name. if(lookAtItemsInHands) result = animSetBaseName + "_" + result + "_" + animSetRight + "_" + animSetLeft; else result = animSetBaseName + "_" + result + "__"; // Get the animset. const CAnimationSet *animSetTmp = EAM->getAnimSet(result); if(animSetTmp) { animSet = animSetTmp; return true; } // Bad one try something else. else { // Up to 100 missing anim set (security). if(UnknownAnimSet.size() < 100) { if(UnknownAnimSet.insert(result).second) nlwarning("computeAnimSet: unknown Anim Set '%s' ('%u' unkowns).", result.c_str(), UnknownAnimSet.size()); } // Try to compute the default one result = animSetBaseName + "_" + "default" + "__"; animSetTmp = EAM->getAnimSet(result); if(animSetTmp) animSet = animSetTmp; else { // Up to 100 missing anim set (security). if(UnknownAnimSet.size() < 100) { if(UnknownAnimSet.insert(result).second) nlwarning("computeAnimSet: unknown Anim Set '%s' ('%u' unkowns).", result.c_str(), UnknownAnimSet.size()); } } } // Not Well done. return false; }// computeAnimSet // //----------------------------------------------- // dump : // Create a file with information to debug. //----------------------------------------------- void dump(const std::string &name) { // Write information to start as the version COFile fStart; if(fStart.open(name + "_start.rec", false, false)) { CVectorD currentPos = UserEntity->pos(); fStart.serialVersion(RecordVersion); fStart.serial(currentPos); // Close the File. fStart.close(); } else nlwarning("dump: cannot open/create the file '%s_start.rec'.", name.c_str()); // Write the DB IngameDbMngr.write(name + "_db.rec"); // Open the file. COFile f; if(f.open(name + ".rec", false, false)) { // Dump entities. EntitiesMngr.dump(f); // Dump Client CFG. ClientCfg.serial(f); // Close the File. f.close(); } else nlwarning("dump: cannot open/create the file '%s.rec'.", name.c_str()); // Open the file. if(f.open(name + ".xml", false, true)) { // Create the XML stream COXml output; // Init if(output.init (&f, "1.0")) { // Open the XML Dump. output.xmlPush("XML"); // Dump Client CFG. ClientCfg.serial(output); // Dump entities. EntitiesMngr.dumpXML(output); // Close the XML Dump. output.xmlPop(); // Flush the stream, write all the output file output.flush(); } else nlwarning("dump: cannot initialize '%s.xml'.", name.c_str()); // Close the File. f.close(); } else nlwarning("dump: cannot open/create the file '%s.xml'.", name.c_str()); }// dump // //----------------------------------------------- // loadDump : // Create a file with the current state of the client (good to report a bug). //----------------------------------------------- void loadDump(const std::string &name) { CVectorD currentPos; // Load information to start as the version CIFile fStart; if(fStart.open(name + "_start.rec", false)) { fStart.serialVersion(RecordVersion); fStart.serial(currentPos); // Close the File. fStart.close(); } else nlwarning("loadDump: cannot open the file '%s_start.rec'.", name.c_str()); // Update the position for the vision. NetMngr.setReferencePosition(currentPos); // Select the closest continent from the new position. class CDummyProgress : public IProgressCallback { void progress (float /* value */) {} }; CDummyProgress dummy; ContinentMngr.select(currentPos, dummy); // Load the DB IngameDbMngr.read(name + "_db.rec"); // Open the file. CIFile f; if(f.open(name + ".rec", false)) { // Dump entities. EntitiesMngr.dump(f); // Close the File. f.close(); } else nlwarning("loadDump: cannot open '%s.rec'.", name.c_str()); }// loadDump // //----------------------------------------------- // getLodCharacterId // Get the lod character id from the scene, according to LodCharacterName. Cached. // -1 if id not found. //----------------------------------------------- sint getLodCharacterId(UScene &scene, const string &lodCharacterName) { sint lodCharacterId = scene.getCLodShapeIdByName(lodCharacterName); // display a warning for bad character Id, only if name was setup in the sheet if(lodCharacterId==-1 && !lodCharacterName.empty() ) { // Limited to 100 missing Lod to avoid memories problems if(LodCharactersNotFound.size() < 100) { // Insert and display a waring if(LodCharactersNotFound.insert(lodCharacterName).second) nlwarning("getLodCharacterId: Not found A Character LodCharacter in the Manager: %s", lodCharacterName.c_str()); } } return lodCharacterId; }// getLodCharacterId // //----------------------------------------------- // getItem : //----------------------------------------------- CItemSheet *getItem(const CGenderInfo &genderInfo, SLOTTYPE::EVisualSlot slot) { CEntitySheet *faceItem = SheetMngr.get(CSheetId(genderInfo.getItemName(slot))); return (dynamic_cast (faceItem)); }// getItem // //----------------------------------------------- // getColorIndex : //----------------------------------------------- sint getColorIndex(const CGenderInfo &genderInfo, SLOTTYPE::EVisualSlot slot) { CItemSheet *is = getItem(genderInfo, slot); if(is == 0) return 0; return is->Color; }// getColorIndex // //----------------------------------------------- // buildPropVisualA : //----------------------------------------------- SPropVisualA buildPropVisualA(const CGenderInfo &genderInfo) { SPropVisualA dest; dest.PropertyA = 0; // setup items dest.PropertySubData.JacketModel = SheetMngr.getVSIndex(genderInfo.Items[SLOTTYPE::CHEST_SLOT], SLOTTYPE::CHEST_SLOT); dest.PropertySubData.TrouserModel = SheetMngr.getVSIndex(genderInfo.Items[SLOTTYPE::LEGS_SLOT], SLOTTYPE::LEGS_SLOT); dest.PropertySubData.ArmModel = SheetMngr.getVSIndex(genderInfo.Items[SLOTTYPE::ARMS_SLOT], SLOTTYPE::ARMS_SLOT); dest.PropertySubData.HatModel = SheetMngr.getVSIndex(genderInfo.Items[SLOTTYPE::HEAD_SLOT], SLOTTYPE::HEAD_SLOT); // setup colors (fixed or user) sint col = getColorIndex(genderInfo, SLOTTYPE::CHEST_SLOT); dest.PropertySubData.JacketColor = (col == -1) ? 0 : col; // col = getColorIndex(genderInfo, SLOTTYPE::LEGS_SLOT); dest.PropertySubData.TrouserColor = (col == -1) ? 0 : col; // col = getColorIndex(genderInfo, SLOTTYPE::ARMS_SLOT); dest.PropertySubData.ArmColor = (col == -1) ? 0 : col; // col = getColorIndex(genderInfo, SLOTTYPE::HEAD_SLOT); dest.PropertySubData.HatColor = (col == -1) ? 0 : col; // sheath are not used return dest; }// buildPropVisualA // //----------------------------------------------- // buildPropVisualB : //----------------------------------------------- SPropVisualB buildPropVisualB(const CGenderInfo &genderInfo) { // feet & hands SPropVisualB dest; dest.PropertyB = 0; // setup items dest.PropertySubData.HandsModel = SheetMngr.getVSIndex(genderInfo.Items[SLOTTYPE::HANDS_SLOT], SLOTTYPE::HANDS_SLOT); dest.PropertySubData.FeetModel = SheetMngr.getVSIndex(genderInfo.Items[SLOTTYPE::FEET_SLOT], SLOTTYPE::FEET_SLOT); // setup colors (fixed or user) sint col = getColorIndex(genderInfo, SLOTTYPE::HANDS_SLOT); dest.PropertySubData.HandsColor = (col == -1) ? 0 : col; // col = getColorIndex(genderInfo, SLOTTYPE::FEET_SLOT); dest.PropertySubData.FeetColor = (col == -1) ? 0 : col; return dest; }// buildPropVisualB // //----------------------------------------------- // isUserColorSupported : // Test whether user color is supported for this equipment //----------------------------------------------- bool isUserColorSupported(const CPlayerSheet::CEquipment &equip) { NLMISC::CSheetId si; if(!si.buildSheetId(equip.Item)) return false; CItemSheet *is = dynamic_cast(SheetMngr.get(si)); if(!is) return false; return is->Color == -1; // user color supported by the item }// isUserColorSupported // //----------------------------------------------- // isUserColorSupported : // Test whether user color is supported for a given visual slot //----------------------------------------------- bool isUserColorSupported(const CPlayerSheet &playerSheet, SLOTTYPE::EVisualSlot vs) { switch(vs) { case SLOTTYPE::CHEST_SLOT: return isUserColorSupported(playerSheet.Body); case SLOTTYPE::LEGS_SLOT: return isUserColorSupported(playerSheet.Legs); case SLOTTYPE::HEAD_SLOT: return isUserColorSupported(playerSheet.Head); case SLOTTYPE::ARMS_SLOT: return isUserColorSupported(playerSheet.Arms); case SLOTTYPE::HANDS_SLOT: return isUserColorSupported(playerSheet.Hands); case SLOTTYPE::FEET_SLOT: return isUserColorSupported(playerSheet.Feet); case SLOTTYPE::RIGHT_HAND_SLOT: return isUserColorSupported(playerSheet.ObjectInRightHand); case SLOTTYPE::LEFT_HAND_SLOT: return isUserColorSupported(playerSheet.ObjectInLeftHand); default: break; } return false; }// isUserColorSupported // //----------------------------------------------- // getColor : //----------------------------------------------- sint8 getColor(const CPlayerSheet::CEquipment &equip) { NLMISC::CSheetId si; if(!si.buildSheetId(equip.Item)) return -2; CItemSheet *is = dynamic_cast(SheetMngr.get(si)); if(!is) return -2; if(is->Color == -1) // user color supported by the item { return equip.Color; } else { return is->Color; } }// getColor // //----------------------------------------------- // buildPropVisualA : //----------------------------------------------- SPropVisualA buildPropVisualA(const CPlayerSheet &playerSheet) { SPropVisualA vp; // setup items vp.PropertySubData.JacketModel = SheetMngr.getVSIndex(playerSheet.Body.Item, SLOTTYPE::CHEST_SLOT); vp.PropertySubData.TrouserModel = SheetMngr.getVSIndex(playerSheet.Legs.Item, SLOTTYPE::LEGS_SLOT); vp.PropertySubData.ArmModel = SheetMngr.getVSIndex(playerSheet.Arms.Item, SLOTTYPE::ARMS_SLOT); vp.PropertySubData.HatModel = SheetMngr.getVSIndex(playerSheet.Head.Item, SLOTTYPE::HEAD_SLOT); vp.PropertySubData.WeaponRightHand = SheetMngr.getVSIndex(playerSheet.ObjectInRightHand.Item, SLOTTYPE::RIGHT_HAND_SLOT); vp.PropertySubData.WeaponLeftHand = SheetMngr.getVSIndex(playerSheet.ObjectInLeftHand.Item, SLOTTYPE::LEFT_HAND_SLOT); // setup colors vp.PropertySubData.JacketColor = getColor(playerSheet.Body); vp.PropertySubData.TrouserColor = getColor(playerSheet.Legs); vp.PropertySubData.ArmColor = getColor(playerSheet.Arms); vp.PropertySubData.HatColor = getColor(playerSheet.Head); return vp; }// buildPropVisualA // //----------------------------------------------- // buildPropVisualB : //----------------------------------------------- SPropVisualB buildPropVisualB(const CPlayerSheet &playerSheet) { SPropVisualB vp; // setup items vp.PropertySubData.Name = 0; vp.PropertySubData.HandsModel = SheetMngr.getVSIndex(playerSheet.Hands.Item, SLOTTYPE::HANDS_SLOT); vp.PropertySubData.FeetModel = SheetMngr.getVSIndex(playerSheet.Feet.Item, SLOTTYPE::FEET_SLOT); // setup colors vp.PropertySubData.HandsColor = getColor(playerSheet.Hands); vp.PropertySubData.FeetColor = getColor(playerSheet.Feet); return vp; }// buildPropVisualB // //----------------------------------------------- // drawBox : // Draw a Box from 2 vectors. //----------------------------------------------- void drawBox(const CVector &vMin, const CVector &vMax, const CRGBA &color) { CLineColor line; line.Color0 = color; line.Color1 = color; // Bottom quad line = CLine(CVector(vMin.x,vMin.y,vMin.z), CVector(vMax.x,vMin.y,vMin.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMax.x,vMin.y,vMin.z), CVector(vMax.x,vMax.y,vMin.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMax.x,vMax.y,vMin.z), CVector(vMin.x,vMax.y,vMin.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMin.x,vMax.y,vMin.z), CVector(vMin.x,vMin.y,vMin.z)); Driver->drawLine(line, GenericMat); // Top quad line = CLine(CVector(vMin.x,vMin.y,vMax.z), CVector(vMax.x,vMin.y,vMax.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMax.x,vMin.y,vMax.z), CVector(vMax.x,vMax.y,vMax.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMax.x,vMax.y,vMax.z), CVector(vMin.x,vMax.y,vMax.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMin.x,vMax.y,vMax.z), CVector(vMin.x,vMin.y,vMax.z)); Driver->drawLine(line, GenericMat); // Sides Quad line = CLine(CVector(vMin.x,vMin.y,vMin.z), CVector(vMin.x,vMin.y,vMax.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMax.x,vMin.y,vMin.z), CVector(vMax.x,vMin.y,vMax.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMax.x,vMax.y,vMin.z), CVector(vMax.x,vMax.y,vMax.z)); Driver->drawLine(line, GenericMat); line = CLine(CVector(vMin.x,vMax.y,vMin.z), CVector(vMin.x,vMax.y,vMax.z)); Driver->drawLine(line, GenericMat); }// drawBox // //----------------------------------------------- // drawSphere : // Draw a Sphere //----------------------------------------------- void drawSphere(const NLMISC::CVector ¢er, float radius, const NLMISC::CRGBA &color) { const uint numSegs= 12; CLineColor line; line.Color0 = color; line.Color1 = color; // For all faces for(uint face=0;face<3;face++) { for(uint i=0;idrawLine(line, GenericMat); } } } //----------------------------------------------- // getSeedsFromDB : //----------------------------------------------- void getSeedsFromDB(CSeeds &dest) { CInterfaceManager *im =CInterfaceManager::getInstance(); nlctassert(sizeof(CSeeds::TUInt) == 4); // excpect that the number of each seed type is encoded on 32 bits // if this assert at compile, change the following code string ls = CWidgetManager::getInstance()->getParser()->getDefine("money_1"); string ms = CWidgetManager::getInstance()->getParser()->getDefine("money_2"); string bs = CWidgetManager::getInstance()->getParser()->getDefine("money_3"); string vbs = CWidgetManager::getInstance()->getParser()->getDefine("money_4"); dest = CSeeds(NLGUI::CDBManager::getInstance()->getDbProp(ls)->getValue32(), NLGUI::CDBManager::getInstance()->getDbProp(ms)->getValue32(), NLGUI::CDBManager::getInstance()->getDbProp(bs)->getValue32(), NLGUI::CDBManager::getInstance()->getDbProp(vbs)->getValue32()); } // getSeedsFromDB // //----------------------------------------------- // setVect : // Change a 'direction' vector. // \param vectToChange : the vector to change. // \param vect : new vector to use. // \param compute : adjust the param 'vect' to be valid or leave the old one unchanged if impossible. // \param check : warning if the param 'vect' is not valid (vector Null) even with compute=true. // \return bool : 'true' if the vectToChange has been filled, else 'false'. //----------------------------------------------- bool setVect(CVector &vectToChange, const CVector &vect, bool compute, bool check) { // Compute the vector. if(compute) { CVector vectTmp(vect); // No need of the Z component for the vector. vectTmp.z = 0.0f; // Check vector. if(vectTmp != CVector::Null) { vectTmp.normalize(); vectToChange = vectTmp; return true; } // Bad Vector -> vectToChange remains the same else { // Warning if(check) nlwarning("setVect: cannot compute the vector, keep the old one."); return false; } } // Bad Vector -> vectToChange remains the same if(vect == CVector::Null) { // Warning if(check) nlwarning("setVect: param is a vector Null, vectToChange remains the same."); return false; } // Set the new front vector. vectToChange = vect; return true; }// setVect // NLMISC::CRGBA interpClientCfgColor(const ucstring &src, ucstring &dest) { CRGBA color = CRGBA::White; if (src.size() >= 3) { if (src[0] == (ucchar) '&') { ucstring::size_type nextPos = src.find((ucchar) '&', 1); if (nextPos != ucstring::npos) { std::string colorCode; colorCode.resize(nextPos - 1); for(uint k = 0; k < nextPos - 1; ++k) { colorCode[k] = tolower((char) src[k + 1]); } std::map::const_iterator it = ClientCfg.SystemInfoParams.find(colorCode); if (it != ClientCfg.SystemInfoParams.end()) { color = it->second.Color; } dest = src.substr(nextPos + 1); } else { dest = src; } } else { dest = src; } } else { dest = src; } return color; } std::string getStringCategory(const ucstring &src, ucstring &dest, bool alwaysAddSysByDefault) { std::string str = getStringCategoryIfAny(src, dest); if (alwaysAddSysByDefault) return str.empty()?"SYS":str; else return str; } std::string getStringCategoryIfAny(const ucstring &src, ucstring &dest) { std::string colorCode; if (src.size() >= 3) { uint startPos = 0; // Skip or if present at beginning ucstring preTag; const uint PreTagSize = 5; const ucstring newTag(""); if ( (src.size() >= PreTagSize) && (src.substr( 0, PreTagSize ) == newTag) ) { startPos = PreTagSize; preTag = newTag; } const ucstring chgTag(""); if ( (src.size() >= PreTagSize) && (src.substr( 0, PreTagSize ) == chgTag) ) { startPos = PreTagSize; preTag = chgTag; } if (src[startPos] == (ucchar) '&') { ucstring::size_type nextPos = src.find((ucchar) '&', startPos+1); if (nextPos != ucstring::npos) { uint codeSize = (uint)nextPos - startPos - 1; colorCode.resize( codeSize ); for(uint k = 0; k < codeSize; ++k) { colorCode[k] = tolower((char) src[k + startPos + 1]); } ucstring destTmp; if ( startPos != 0 ) destTmp = preTag; // leave or in the dest string destTmp += src.substr(nextPos + 1); dest = destTmp; } else { dest = src; } } else { dest = src; } } else { dest = src; } return colorCode; } // *************************************************************************** sint ucstrnicmp(const ucstring &s0, uint p0, uint n0, const ucstring &s1) { // start const ucchar *start1= s1.c_str(); uint lenS1= (uint)s1.size(); const ucchar *start0= s0.c_str(); uint lenS0= (uint)s0.size(); if(p0!=0) { if(p00 && lenS1>0) { ucchar c0= toLower(*start0++); ucchar c1= toLower(*start1++); if(c0!=c1) return c0s0, 1 if s0>s1, or 0 if equals if(lenS1>0) return -1; else if(lenS0>0) return 1; else return 0; } // ******************************************************************************************* float computeUniformNoise(const NLMISC::CNoiseValue &nv, const CVector &pos) { NLMISC::OptFastFloorBegin(); float value = nv.eval(pos); value = 10.f * fmodf(value, 0.1f); // make repartition more uniform NLMISC::OptFastFloorEnd(); return value; } // *************************************************************************** void computeCurrentFovAspectRatio(float &fov, float &ar) { // compute the fov fov = (float)(ClientCfg.FoV*Pi/180.0); // get the screen aspect ratio from CFG ar = ClientCfg.ScreenAspectRatio; // if Driver is not created, we can't get current screen mode if (!Driver) return; // if windowed, must modulate aspect ratio by (WindowResolution / ScreenResolution) if(ClientCfg.Windowed) { uint32 wndW, wndH; Driver->getWindowSize(wndW, wndH); UDriver::CMode mode; Driver->getCurrentScreenMode(mode); if(wndH) { // compute window aspect ratio float arWnd= float(wndW) / float(wndH); if (ar == 0.f) { // auto mode, we are using window aspect ratio ar = arWnd; } else if (mode.Width && mode.Height) { // compute screen aspect ratio float arScreen= float(mode.Width) / float(mode.Height); ar *= arWnd / arScreen; } } } // if fullscreen, must modulate aspect ratio by ScreenResolution else { if (ar == 0.f) { UDriver::CMode mode; Driver->getCurrentScreenMode(mode); if(mode.Height) { ar = float(mode.Width) / float(mode.Height); } } } } // *************************************************************************** void drawDisc(CBitmap &dest, float x, float y, float radius, const CRGBA &color, bool additif /*= false*/, uint numSegs /*= 127*/) { CPolygon2D poly; poly.Vertices.resize(numSegs); for(uint k = 0; k < numSegs; ++k) { poly.Vertices[k].set(x + radius * (float) cos(k / (float) numSegs * 2 * Pi), y + radius * (float) sin(k / (float) numSegs * 2 * Pi)); } CPolygon2D::TRasterVect rasters; sint minY; poly.computeOuterBorders(rasters, minY); sint maxY = std::min((sint) dest.getHeight(), (sint) rasters.size() + minY); for (sint y = std::max((sint) 0, minY); y < maxY; ++y) { nlassert(y >= 0 && y < (sint) dest.getHeight()); sint minX = std::max((sint) 0, rasters[y - minY].first); sint maxX = std::min((sint) dest.getWidth(), rasters[y - minY].second); if (maxX > minX) { CRGBA *pt = (CRGBA *) &dest.getPixels(0)[0]; pt += y * dest.getWidth() + minX; const CRGBA *endPt = pt + (maxX - minX); while (pt != endPt) { if (additif) { pt->add(*pt, color); } else { *pt = color; } ++ pt; } } } } // ************************************************************************************************* NL3D::UScene *getSkyScene() { if (ContinentMngr.cur() && !ContinentMngr.cur()->Indoor) { CSky &sky = ContinentMngr.cur()->CurrentSky; if (sky.getScene()) { return sky.getScene(); } else { return SkyScene; // old sky rendering } } return NULL; } // ************************************************************************************************* void setEmissive(NL3D::UInstance instance, const NLMISC::CRGBA &color) { if (instance.empty()) return; for(uint k = 0; k < instance.getNumMaterials(); ++k) { NL3D::UInstanceMaterial mat = instance.getMaterial(k); mat.setEmissive(color); } } // ************************************************************************************************* void setDiffuse(NL3D::UInstance instance, bool onOff, const NLMISC::CRGBA &color) { if (instance.empty()) return; for(uint k = 0; k < instance.getNumMaterials(); ++k) { NL3D::UInstanceMaterial mat = instance.getMaterial(k); if (mat.isLighted()) { CRGBA src; if (onOff) { src = mat.getDiffuse(); src.R = color.R; src.G = color.G; src.B = color.B; } else { NL3D::UMaterial matShape = instance.getShape().getMaterial(k); src = matShape.getDiffuse(); src.A = mat.getDiffuse().A; } mat.setDiffuse(src); } else { CRGBA src; if (onOff) { src = mat.getColor(); src.R = color.R; src.G = color.G; src.B = color.B; } else { NL3D::UMaterial matShape = instance.getShape().getMaterial(k); src = matShape.getColor(); src.A = mat.getColor().A; } mat.setColor(src); } } } // ************************************************************************************************* void makeInstanceTransparent(UInstance &inst, uint8 opacity, bool disableZWrite) { UShape shape= inst.getShape(); if(shape.empty()) return; uint numMats= shape.getNumMaterials(); if(numMats==0) return; if(numMats!=inst.getNumMaterials()) return; // instance transparent or not? if (opacity == 255) { // reset default shape opacity / transparency inst.setOpacity(shape.getDefaultOpacity()); inst.setTransparency(shape.getDefaultTransparency()); inst.setBypassLODOpacityFlag(false); } else { // Will have some blend material => sure not to be rendered in Opaque pass inst.setOpacity(false); inst.setTransparency(true); inst.setBypassLODOpacityFlag(true); // these flags prevails over the current lods flags for multi-lod objects } // set all materials for (uint32 j = 0; j < numMats; ++j) { NL3D::UInstanceMaterial matInst = inst.getMaterial(j); NL3D::UMaterial matShape= shape.getMaterial(j); // disalbe zwrite? if(disableZWrite) matInst.setZWrite(false); else matInst.setZWrite(matShape.getZWrite()); // if no more transparent if (opacity == 255) { // reset to default matInst.setBlend(matShape.getBlend()); matInst.setBlendFunc((NL3D::UInstanceMaterial::TBlend)matShape.getSrcBlend(), (NL3D::UInstanceMaterial::TBlend)matShape.getDstBlend()); // if orginal material is opaque or additif and has no alpha test, then ensure restore last tex env if needed CMaterial *destInternalMat = matInst.getObjectPtr(); if (!matShape.getBlend() && !matShape.getAlphaTest()) { if (destInternalMat->getShader() == CMaterial::Normal) { CMaterial *srcInternalMat = matShape.getObjectPtr(); uint numTex = 0; for (;numTex < 4 && srcInternalMat->getTexture(numTex) != NULL; ++numTex) {} if (numTex > 0) { if (srcInternalMat->getTexEnvMode(numTex - 1) != destInternalMat->getTexEnvMode(numTex - 1)) { destInternalMat->setTexEnvMode(numTex - 1, srcInternalMat->getTexEnvMode(numTex - 1)); } } } } if (destInternalMat->getShader() == CMaterial::Normal) { // if !lighted, restore color if (!destInternalMat->isLighted()) { CMaterial *srcInternalMat = matShape.getObjectPtr(); // restore alpha in color CRGBA color = destInternalMat->getColor(); color.A = srcInternalMat->getColor().A; destInternalMat->setColor(color); } } } else { // Enable blend matInst.setBlend(true); // If default is ???/one or , then use a srcalpha/one (eg: for Diamond-like weapons) if(matShape.getBlend() && (sint32)matShape.getDstBlend()==(sint32)NL3D::UInstanceMaterial::one) matInst.setBlendFunc(NL3D::UInstanceMaterial::srcalpha, NL3D::UInstanceMaterial::one); // else use a standard srcalpha/invsrcalpha else matInst.setBlendFunc(NL3D::UInstanceMaterial::srcalpha, NL3D::UInstanceMaterial::invsrcalpha); // if orginal material is opaque or additif and has no alpha test, then ensure that the alpha output is 'diffuse' CMaterial *internalMat = matInst.getObjectPtr(); if (!matShape.getBlend() && !matShape.getAlphaTest()) { if (internalMat->getShader() == CMaterial::Normal) { uint numTex = 0; for (;numTex < 4 && internalMat->getTexture(numTex) != NULL; ++numTex) {} if (numTex > 0) { internalMat->texEnvOpAlpha(numTex - 1, CMaterial::Replace); // if material is unlighted, then use the constant at this stage to set the alpha internalMat->texEnvArg0Alpha(numTex - 1, CMaterial::Diffuse, CMaterial::SrcAlpha); } } } if (internalMat->getShader() == CMaterial::Normal) { if (!internalMat->isLighted()) { // replace alpha in color CRGBA color = internalMat->getColor(); color.A = opacity; internalMat->setColor(color); } } } // suppose that default opacity is always 255 if (matInst.isLighted()) { matInst.setOpacity(opacity); } matInst.setAlphaTestThreshold(matShape.getAlphaTestThreshold()*((float)opacity)/255.0f); } } void setVideoMode(const UDriver::CMode &mode) { UDriver::CMode oldMode, newMode = mode; oldMode.Windowed = true; // getCurrentScreenMode may fail if first init ... Driver->getCurrentScreenMode(oldMode); bool wasMaximized = isWindowMaximized(); if (!Driver->setMode(newMode) && !newMode.Windowed) { // failed to switch to mode, fall back to windowed newMode.Windowed = true; ClientCfg.Windowed = true; ClientCfg.writeInt("FullScreen", 0); // set the window mode Driver->setMode(newMode); } bool isMaximized = isWindowMaximized(); if (oldMode.Windowed && !newMode.Windowed) // going to fullscreen ? { /*CInterfaceManager *pIM = CInterfaceManager::getInstance(); pIM->movePointerAbs((sint32) mode.Width / 2, (sint32) mode.Height / 2); Driver->setMousePos(0.5f, 0.5f);*/ } else if ((!oldMode.Windowed || wasMaximized) && (newMode.Windowed && !isMaximized)) // leaving fullscreen ? { UDriver::CMode screenMode; uint32 posX = 0; uint32 posY = 0; if (Driver->getCurrentScreenMode(screenMode)) { // position is not saved in config so center the window posX = (screenMode.Width - Driver->getWindowWidth())/2; posY = (screenMode.Height - Driver->getWindowHeight())/2; } Driver->setWindowPos(posX, posY); } } uint getCurrentColorDepth() { if (Driver && Driver->isActive()) { UDriver::CMode videoMode; Driver->getCurrentScreenMode(videoMode); if (!videoMode.Windowed) { return videoMode.Depth; } } return CSystemUtils::getCurrentColorDepth(); } bool isWindowMaximized() { UDriver::CMode screenMode; uint32 width, height; Driver->getWindowSize(width, height); return (Driver->getCurrentScreenMode(screenMode) && screenMode.Windowed && screenMode.Width == width && screenMode.Height == height); } bool getRyzomModes(std::vector &videoModes, std::vector &stringModeList, std::vector &stringFreqList, sint &nFoundStringMode, sint &nFoundStringFreq) { // default values nFoundStringMode = -1; nFoundStringFreq = -1; // mode index in original video modes sint nFoundMode = -1; // **** Init Video Modes Driver->getModes(videoModes); // Remove modes under 800x600 and get the unique strings sint i, j; for (i = 0; i < (sint)videoModes.size(); ++i) { if ((videoModes[i].Width < 800) || (videoModes[i].Height < 600)) { // discard modes under 800x600 videoModes.erase(videoModes.begin()+i); --i; } else { bool bFound = false; // create string format with width and height string res = toString(videoModes[i].Width)+" x "+toString(videoModes[i].Height); // check if video mode already found in list for (j = 0; j < (sint)stringModeList.size(); ++j) { if (stringModeList[j] == res) { bFound = true; break; } } // if not found if (!bFound) { // add it to the list stringModeList.push_back(res); // process all screen sizes less or equal to desired one if ((videoModes[i].Width <= ClientCfg.Width) && (videoModes[i].Height <= ClientCfg.Height)) { // take first one by default if (nFoundStringMode == -1) { nFoundStringMode = j; nFoundMode = i; } else { // then take the largest one if ((videoModes[i].Width >= videoModes[nFoundMode].Width) && (videoModes[i].Height >= videoModes[nFoundMode].Height)) { nFoundStringMode = j; nFoundMode = i; } } } } } } // If no modes are available, fallback to windowed mode if (nFoundStringMode == -1) { nlwarning("Mode %ux%u not found, fall back to windowed", (uint)ClientCfg.Width, (uint)ClientCfg.Height); ClientCfg.Windowed = true; ClientCfg.writeInt("FullScreen", 0); } else { // add frequencies to frequencies list for (i = 0; i < (sint)videoModes.size(); ++i) { // only take exact screen sizes if (videoModes[i].Width == videoModes[nFoundMode].Width && videoModes[i].Height == videoModes[nFoundMode].Height) { uint freq = videoModes[i].Frequency; std::string freqStr = toString(freq); bool bFound = false; // check if frequency already found in list for (j = 0; j < (sint)stringFreqList.size(); ++j) { if (stringFreqList[j] == freqStr) { bFound = true; break; } } if (!bFound) { // if frequency is 0, take the first one else use the exact one if (nFoundStringFreq == -1 && ((ClientCfg.Frequency == 0) || (freq == ClientCfg.Frequency))) { nFoundStringFreq = stringFreqList.size(); } stringFreqList.push_back(freqStr); } } } } return nFoundStringMode > -1; }