/* * ORXONOX - the hottest 3D action shooter ever to exist * * * License notice: * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * * * Author: * Benjamin Knecht , (C) 2007 * Co-authors: * ... * */ /** @file orxonox.cc @brief Orxonox Main File */ #include #include #include #include #include #include #include #include #include #include #include #include #include //#include "../xml/xmlParser.h" //#include "../loader/LevelLoader.h" #include "core/CoreIncludes.h" #include "core/SignalHandler.h" #include "objects/Tickable.h" #include "objects/Timer.h" #include "objects/WorldEntity.h" #include "objects/BaseObject.h" #include "objects/Test.h" #include "objects/test1.h" #include "objects/test2.h" #include "objects/test3.h" // some tests to see if enet works without includsion //#include //#include #if OGRE_PLATFORM == OGRE_PLATFORM_APPLE #include // This function will locate the path to our application on OS X, // unlike windows you can not rely on the curent working directory // for locating your configuration files and resources. std::string macBundlePath() { char path[1024]; CFBundleRef mainBundle = CFBundleGetMainBundle(); assert(mainBundle); CFURLRef mainBundleURL = CFBundleCopyBundleURL(mainBundle); assert(mainBundleURL); CFStringRef cfStringRef = CFURLCopyFileSystemPath( mainBundleURL, kCFURLPOSIXPathStyle); assert(cfStringRef); CFStringGetCString(cfStringRef, path, 1024, kCFStringEncodingASCII); CFRelease(mainBundleURL); CFRelease(cfStringRef); return std::string(path); } #endif namespace orxonox { class OrxExitListener : public Ogre::FrameListener { public: OrxExitListener(OIS::Keyboard *keyboard) : mKeyboard(keyboard) { } bool frameStarted(const Ogre::FrameEvent& evt) { mKeyboard->capture(); return !mKeyboard->isKeyDown(OIS::KC_ESCAPE); } private: OIS::Keyboard *mKeyboard; }; class OrxApplication { public: void go() { createRoot(); defineResources(); setupRenderSystem(); createRenderWindow(); initializeResourceGroups(); createScene(); setupScene(); setupInputSystem(); setupCEGUI(); createFrameListener(); Factory::createClassHierarchy(); #define testandcout(code) \ std::cout << #code << " " << code << "\n" /* std::cout << "Test 1\n"; BaseObject* test1; test1 = new BaseObject(); test1 = new BaseObject(); test1 = new BaseObject(); std::cout << "Test 2\n"; A1* test2; test2 = new A1(); test2 = new A1(); test2 = new A1(); std::cout << "Test 3\n"; BaseObject* test3; test3 = new BaseObject(); test3 = new BaseObject(); test3 = new BaseObject(); std::cout << "Test 4\n"; A3* test4; test4 = new A3(); test4 = new A3(); test4 = new A3(); */ /* std::cout << "Test 5\n"; A1* test5_01 = new A1(); A2* test5_02 = new A2(); A3* test5_03 = new A3(); A1B1* test5_04 = new A1B1(); A1B2* test5_05 = new A1B2(); A2B1* test5_06 = new A2B1(); A2B2* test5_07 = new A2B2(); A3B1* test5_08 = new A3B1(); A3B2* test5_09 = new A3B2(); A1B1C1* test5_10 = new A1B1C1(); A1B1C2* test5_11 = new A1B1C2(); A1B2C1* test5_12 = new A1B2C1(); A2B1C1* test5_13 = new A2B1C1(); A2B2C1* test5_14 = new A2B2C1(); A3B1C1* test5_15 = new A3B1C1(); A3B1C2* test5_16 = new A3B1C2(); A3B2C1* test5_17 = new A3B2C1(); A3B2C2* test5_18 = new A3B2C2(); OrxonoxClass* test5; for (int i = 0; i <= 18; i++) { if (i == 0) test5 = new BaseObject; if (i == 1) test5 = test5_01; if (i == 2) test5 = test5_02; if (i == 3) test5 = test5_03; if (i == 4) test5 = test5_04; if (i == 5) test5 = test5_05; if (i == 6) test5 = test5_06; if (i == 7) test5 = test5_07; if (i == 8) test5 = test5_08; if (i == 9) test5 = test5_09; if (i == 10) test5 = test5_10; if (i == 11) test5 = test5_11; if (i == 12) test5 = test5_12; if (i == 13) test5 = test5_13; if (i == 14) test5 = test5_14; if (i == 15) test5 = test5_15; if (i == 16) test5 = test5_16; if (i == 17) test5 = test5_17; if (i == 18) test5 = test5_18; std::cout << "\n"; std::cout << test5->getIdentifier()->getName() << " (" << test5->getIdentifier()->getNetworkID() << "): parents: " << test5->getIdentifier()->getParents().toString() << "\n"; std::cout << test5->getIdentifier()->getName() << " (" << test5->getIdentifier()->getNetworkID() << "): children: " << test5->getIdentifier()->getChildren().toString() << "\n"; } std::cout << "Class with ID 0: " << ID(0) << " " << ID(0)->getName() << "\n"; std::cout << "Class with ID 1: " << ID(1) << " " << ID(1)->getName() << "\n"; std::cout << "Class with ID 2: " << ID(2) << " " << ID(2)->getName() << "\n"; std::cout << "Class with ID 3: " << ID(3) << " " << ID(3)->getName() << "\n"; std::cout << "Class with ID 4: " << ID(4) << " " << ID(4)->getName() << "\n"; std::cout << "Class with ID 100: " << ID(100) << "\n"; std::cout << "ID of BaseObject: " << Class(BaseObject)->getNetworkID() << "\n"; std::cout << "\nChange ID of BaseObject to 100\n"; Class(BaseObject)->setNetworkID(100); std::cout << "Class with ID 100: " << ID(100) << "\n"; std::cout << "Class with ID 1: " << ID(1) << "\n"; std::cout << "ID of BaseObject: " << Class(BaseObject)->getNetworkID() << "\n"; std::cout << "\nChange ID of BaseObject to 3\n"; Class(BaseObject)->setNetworkID(3); std::cout << "Class with ID 100: " << ID(100) << "\n"; std::cout << "Class with ID 1: " << ID(1) << "\n"; std::cout << "Class with ID 3: " << ID(3) << "\n"; std::cout << "ID of BaseObject: " << Class(BaseObject)->getNetworkID() << "\n"; std::cout << "ID of Test1: " << Class(Test1)->getNetworkID() << "\n"; */ /* std::cout << "\n"; std::cout << "isA(XYZ)-Test:\n"; std::cout << "test5_01 = A1, Erwartet: 1 0 0 1 0\n"; testandcout(test5_01->isA(Class(A1))); testandcout(test5_01->isA(Class(A2))); testandcout(test5_01->isA(Class(A1B1))); testandcout(test5_01->isA(Class(BaseObject))); testandcout(test5_01->isA(Class(Interface1))); std::cout << "\n"; std::cout << "test5_02 = A2, Erwartet: 0 1 0 1 0\n"; testandcout(test5_02->isA(Class(A1))); testandcout(test5_02->isA(Class(A2))); testandcout(test5_02->isA(Class(A1B1))); testandcout(test5_02->isA(Class(BaseObject))); testandcout(test5_02->isA(Class(Interface1))); std::cout << "\n"; std::cout << "test5_01 = A3, Erwartet: 0 0 0 1 1\n"; testandcout(test5_03->isA(Class(A1))); testandcout(test5_03->isA(Class(A2))); testandcout(test5_03->isA(Class(A1B1))); testandcout(test5_03->isA(Class(BaseObject))); testandcout(test5_03->isA(Class(Interface1))); std::cout << "\n"; std::cout << "isDirectA(XYZ)-Test:\n"; std::cout << "test5_01 = A1, Erwartet: 1 0 0 0 0\n"; testandcout(test5_01->isDirectlyA(Class(A1))); testandcout(test5_01->isDirectlyA(Class(A2))); testandcout(test5_01->isDirectlyA(Class(A1B1))); testandcout(test5_01->isDirectlyA(Class(BaseObject))); testandcout(test5_01->isDirectlyA(Class(Interface1))); std::cout << "\n"; std::cout << "test5_02 = A2, Erwartet: 0 1 0 0 0\n"; testandcout(test5_02->isDirectlyA(Class(A1))); testandcout(test5_02->isDirectlyA(Class(A2))); testandcout(test5_02->isDirectlyA(Class(A1B1))); testandcout(test5_02->isDirectlyA(Class(BaseObject))); testandcout(test5_02->isDirectlyA(Class(Interface1))); std::cout << "\n"; std::cout << "test5_03 = A3, Erwartet: 0 0 0 0 0\n"; testandcout(test5_03->isDirectlyA(Class(A1))); testandcout(test5_03->isDirectlyA(Class(A2))); testandcout(test5_03->isDirectlyA(Class(A1B1))); testandcout(test5_03->isDirectlyA(Class(BaseObject))); testandcout(test5_03->isDirectlyA(Class(Interface1))); std::cout << "\n"; std::cout << "isChildOf(XYZ)-Test:\n"; std::cout << "test5_04 = A1B1, Erwartet: 1 0 1 0 0 0 0\n"; testandcout(test5_04->isChildOf(Class(A1))); testandcout(test5_04->isChildOf(Class(A2))); testandcout(test5_04->isChildOf(Class(BaseObject))); testandcout(test5_04->isChildOf(Class(Interface1))); testandcout(test5_04->isChildOf(Class(Interface2))); testandcout(test5_04->isChildOf(Class(A1B1C2))); testandcout(test5_04->isChildOf(Class(A1B1))); std::cout << "\n"; std::cout << "test5_06 = A2B1, Erwartet: 0 1 1 0 0 0 0\n"; testandcout(test5_06->isChildOf(Class(A1))); testandcout(test5_06->isChildOf(Class(A2))); testandcout(test5_06->isChildOf(Class(BaseObject))); testandcout(test5_06->isChildOf(Class(Interface1))); testandcout(test5_06->isChildOf(Class(Interface2))); testandcout(test5_06->isChildOf(Class(A1B1C2))); testandcout(test5_06->isChildOf(Class(A1B1))); std::cout << "\n"; std::cout << "test5_07 = A2B2, Erwartet: 0 1 1 1 0 0\n"; testandcout(test5_07->isChildOf(Class(A1))); testandcout(test5_07->isChildOf(Class(A2))); testandcout(test5_07->isChildOf(Class(BaseObject))); testandcout(test5_07->isChildOf(Class(Interface1))); testandcout(test5_07->isChildOf(Class(Interface2))); testandcout(test5_07->isChildOf(Class(A1B1C2))); std::cout << "\n"; std::cout << "test5_08 = A3B1, Erwartet: 0 0 1 1 0 0\n"; testandcout(test5_08->isChildOf(Class(A1))); testandcout(test5_08->isChildOf(Class(A2))); testandcout(test5_08->isChildOf(Class(BaseObject))); testandcout(test5_08->isChildOf(Class(Interface1))); testandcout(test5_08->isChildOf(Class(Interface2))); testandcout(test5_08->isChildOf(Class(A1B1C2))); std::cout << "\n"; std::cout << "test5_09 = A3B2, Erwartet: 0 0 1 1 1 0\n"; testandcout(test5_09->isChildOf(Class(A1))); testandcout(test5_09->isChildOf(Class(A2))); testandcout(test5_09->isChildOf(Class(BaseObject))); testandcout(test5_09->isChildOf(Class(Interface1))); testandcout(test5_09->isChildOf(Class(Interface2))); testandcout(test5_09->isChildOf(Class(A1B1C2))); std::cout << "\n"; std::cout << "isParentOf(XYZ)-Test:\n"; std::cout << "test1 = BaseObject, Erwartet: 0 0 1 1 1 1 1\n"; testandcout(test1->isParentOf(Class(BaseObject))); testandcout(test1->isParentOf(Class(Interface1))); testandcout(test1->isParentOf(Class(A1))); testandcout(test1->isParentOf(Class(A2))); testandcout(test1->isParentOf(Class(A1B1))); testandcout(test1->isParentOf(Class(A2B2))); testandcout(test1->isParentOf(Class(A3B1C2))); std::cout << "\n"; std::cout << "test5_01 = A1, Erwartet: 0 0 0 0 1 0 0\n"; testandcout(test5_01->isParentOf(Class(BaseObject))); testandcout(test5_01->isParentOf(Class(Interface1))); testandcout(test5_01->isParentOf(Class(A1))); testandcout(test5_01->isParentOf(Class(A2))); testandcout(test5_01->isParentOf(Class(A1B1))); testandcout(test5_01->isParentOf(Class(A2B2))); testandcout(test5_01->isParentOf(Class(A3B1C2))); std::cout << "\n"; std::cout << "Interface1, Erwartet: 0 0 0 0 0 1 1\n"; testandcout(Class(Interface1)->isParentOf(Class(BaseObject))); testandcout(Class(Interface1)->isParentOf(Class(Interface1))); testandcout(Class(Interface1)->isParentOf(Class(A1))); testandcout(Class(Interface1)->isParentOf(Class(A2))); testandcout(Class(Interface1)->isParentOf(Class(A1B1))); testandcout(Class(Interface1)->isParentOf(Class(A2B2))); testandcout(Class(Interface1)->isParentOf(Class(A3B1C2))); */ /* std::cout << "Test 6\n"; std::cout << "1:\n"; Identifier* test6_01 = Class(A1B1); std::cout << "2:\n"; Identifier* test6_02 = Class(A1B1); std::cout << "3:\n"; Identifier* test6_03 = Class(A1); std::cout << "4:\n"; Identifier* test6_04 = Class(A1B1C1); std::cout << "5:\n"; Identifier* test6_05 = Class(A1B1); std::cout << "6:\n"; Identifier* test6_06 = Class(A1B1C1); std::cout << "\n"; std::cout << "BaseObject: parents: " << Class(BaseObject)->getParents().toString() << "\n"; std::cout << "BaseObject: children: " << Class(BaseObject)->getChildren().toString() << "\n"; std::cout << "\n"; std::cout << "A1: parents: " << Class(A1)->getParents().toString() << "\n"; std::cout << "A1: children: " << Class(A1)->getChildren().toString() << "\n"; std::cout << "\n"; std::cout << "A1B1: parents: " << Class(A1B1)->getParents().toString() << "\n"; std::cout << "A1B1: children: " << Class(A1B1)->getChildren().toString() << "\n"; std::cout << "\n"; std::cout << "A1B1C1: parents: " << Class(A1B1C1)->getParents().toString() << "\n"; std::cout << "A1B1C1: children: " << Class(A1B1C1)->getChildren().toString() << "\n"; std::cout << "\n"; std::cout << "A3B1C1 child of A3: " << Class(A3B1C1)->isChildOf(Class(A3)) << "\n"; std::cout << "\n"; std::cout << "A2 parent of A2B1C1: " << Class(A2)->isParentOf(Class(A2B1C1)) << "\n"; */ /* std::cout << "Test 7\n"; std::cout << "1\n"; SubclassIdentifier test7_01; test7_01 = Class(A1B1C1); SubclassIdentifier test7_02; test7_02 = Class(A1B1); std::cout << test7_01->getName() << "\n"; std::cout << test7_02->getName() << "\n"; */ /* std::cout << "2\n"; SubclassIdentifier test7_03; test7_03 = Class(A1); SubclassIdentifier test7_04; test7_04 = Class(A1B2); SubclassIdentifier test7_05; test7_05 = Class(A2); */ /* std::cout << "Test 8\n"; std::cout << "1\n"; Test1* test8_01 = new Test1; Test3* test8_03 = new Test3; test8_03->usefullClassesIsATest(test8_01); std::cout << "2\n"; Test2* test8_02 = new Test2; test8_03->usefullClassesIsATest(test8_02); std::cout << "3\n"; test8_01->setUsefullClass1(Class(Test1)); test8_01->setUsefullClass1(test8_02->getIdentifier()); test8_01->setUsefullClass2(Class(Test2)); test8_01->setUsefullClassOfTypeTest3(Class(Test3)); test8_01->setUsefullClassOfTypeTest3(test8_03->getIdentifier()); testandcout(test8_01->isA(Class(Test1))); testandcout(test8_01->isA(Class(Test2))); testandcout(test8_01->isA(Class(Test3))); Test2* test8_04 = new Test2; testandcout(test8_02->isA(Class(Test1))); testandcout(test8_02->isA(Class(Test2))); testandcout(test8_02->isA(Class(Test3))); Test3* test8_05 = new Test3; testandcout(test8_03->isA(Class(Test1))); testandcout(test8_03->isA(Class(Test2))); testandcout(test8_03->isA(Class(Test3))); delete test8_01; delete test8_02; delete test8_03; std::cout << "Test 9\n"; std::cout << "1\n"; Identifier* test9_01 = Class(A3); BaseObject* test9_02 = test9_01->fabricate(); std::cout << test9_02->getIdentifier()->getName() << "\n"; std::cout << "\n2\n"; BaseObject* test9_03 = Class(A1B2)->fabricate(); std::cout << test9_03->getIdentifier()->getName() << "\n"; std::cout << "\n3\n"; SubclassIdentifier test9_04; test9_04 = Class(A1B1C1); A1* test9_05 = test9_04.fabricate(); std::cout << test9_05->getIdentifier()->getName() << "\n"; std::cout << "\n4\n"; BaseObject* test9_06 = ID("A2B2")->fabricate(); std::cout << test9_06->getIdentifier()->getName() << "\n"; std::cout << "\n5\n"; delete test9_02; delete test9_03; delete test9_05; delete test9_06; */ /* std::cout << "Test 10\n"; Identifier* test10_01 = Class(A1B2); Identifier* test10_02 = Class(A2); Identifier* test10_03 = Class(A3B1C1); BaseObject* test10_04 = test10_01->fabricate(); BaseObject* test10_05 = test10_02->fabricate(); BaseObject* test10_06 = test10_03->fabricate(); BaseObject* test10_07; for (int i = 0; i < 10; i++) test10_07 = ID("A1B1C1")->fabricate(); std::cout << "1\n"; int count; count = 0; for (Iterator it = ObjectList::start(); it != 0; ++it) { count++; } std::cout << "Anzahl BaseObjects: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it != 0; ++it) { count++; } std::cout << "Anzahl A1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A1B1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A1B1C1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A2: " << count << "\n"; std::cout << "2\n"; BaseObject* test10_08; BaseObject* test10_09; BaseObject* test10_10; for (int i = 0; i < 10; i++) { test10_08 = ID("A2B1C1")->fabricate(); std::string objName = "A2B1C1#"; objName += '0' + i; test10_08->setName(objName); if (i == 0) test10_09 = test10_08; if (i == 5) test10_10 = test10_08; } count = 0; for (Iterator it = ObjectList::start(); it != 0; ++it) { count++; } std::cout << "Anzahl BaseObjects: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it != 0; ++it) { count++; } std::cout << "Anzahl A1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A1B1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A1B1C1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A2: " << count << "\n"; for (Iterator it = ObjectList::start(); it; ++it) std::cout << "Name: " << it->getName() << "\n"; std::cout << "3\n"; for (Iterator it = ObjectList::end(); it; --it) std::cout << "Name: " << it->getName() << "\n"; std::cout << "4\n"; delete test10_08; count = 0; for (Iterator it = ObjectList::start(); it != 0; ++it) { count++; } std::cout << "Anzahl BaseObjects: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it != 0; ++it) { count++; } std::cout << "Anzahl A1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A1B1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A1B1C1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A2: " << count << "\n"; std::cout << "5\n"; for (Iterator it = ObjectList::start(); it; ++it) std::cout << "Name: " << it->getName() << "\n"; std::cout << "6\n"; for (Iterator it = ObjectList::end(); it; --it) std::cout << "Name: " << it->getName() << "\n"; std::cout << "7\n"; delete test10_09; count = 0; for (Iterator it = ObjectList::end(); it != 0; --it) { count++; } std::cout << "Anzahl BaseObjects: " << count << "\n"; count = 0; for (Iterator it = ObjectList::end(); it != 0; --it) { count++; } std::cout << "Anzahl A1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::end(); it; --it) { count++; } std::cout << "Anzahl A1B1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::end(); it; --it) { count++; } std::cout << "Anzahl A1B1C1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::end(); it; --it) { count++; } std::cout << "Anzahl A2: " << count << "\n"; std::cout << "8\n"; for (Iterator it = ObjectList::start(); it; ++it) std::cout << "Name: " << it->getName() << "\n"; std::cout << "9\n"; for (Iterator it = ObjectList::end(); it; --it) std::cout << "Name: " << it->getName() << "\n"; std::cout << "10\n"; delete test10_10; count = 0; for (Iterator it = ObjectList::start(); it != 0; ++it) { count++; } std::cout << "Anzahl BaseObjects: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it != 0; ++it) { count++; } std::cout << "Anzahl A1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A1B1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A1B1C1: " << count << "\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "Anzahl A2: " << count << "\n"; std::cout << "11\n"; for (Iterator it = ObjectList::start(); it; ++it) std::cout << "Name: " << it->getName() << "\n"; std::cout << "12\n"; for (Iterator it = ObjectList::end(); it; --it) std::cout << "Name: " << it->getName() << "\n"; std::cout << "13\n"; */ std::cout << "Test 11\n"; /* std::cout << "1\n"; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "AnzahlTickable: " << count << "\n"; Test1* test11_1; for (int i = 0; i < 3; i++) test11_1 = new Test1; count = 0; for (Iterator it = ObjectList::start(); it; ++it) { count++; } std::cout << "AnzahlTickable: " << count << "\n"; for (Iterator it = ObjectList::start(); it; ++it) it->tick(0); std::cout << "2\n"; Test2* test11_2 = new Test2; */ std::cout << "3\n"; Test3* test11_3 = new Test3; test11_3->configOutput(); std::cout << "4\n"; std::cout << "Test 12\n"; std::cout << "1\n"; WorldEntity* test12_1 = new WorldEntity; std::cout << sizeof(WorldEntity) << std::endl; std::cout << "2\n"; startRenderLoop(); } ~OrxApplication() { mInputManager->destroyInputObject(mKeyboard); OIS::InputManager::destroyInputSystem(mInputManager); // delete mRenderer; // delete mSystem; delete mListener; delete mRoot; } private: Ogre::Root *mRoot; OIS::Keyboard *mKeyboard; OIS::Mouse *mMouse; OIS::InputManager *mInputManager; CEGUI::OgreCEGUIRenderer *mRenderer; CEGUI::System *mSystem; OrxExitListener *mListener; void createRoot() { #if OGRE_PLATFORM == OGRE_PLATFORM_APPLE mRoot = new Ogre::Root(macBundlePath() + "/Contents/Resources/plugins.cfg"); #else mRoot = new Ogre::Root(); #endif } void defineResources() { Ogre::String secName, typeName, archName; Ogre::ConfigFile cf; #if OGRE_PLATFORM == OGRE_PLATFORM_APPLE cf.load(macBundlePath() + "/Contents/Resources/resources.cfg"); #else cf.load("resources.cfg"); #endif Ogre::ConfigFile::SectionIterator seci = cf.getSectionIterator(); while (seci.hasMoreElements()) { secName = seci.peekNextKey(); Ogre::ConfigFile::SettingsMultiMap *settings = seci.getNext(); Ogre::ConfigFile::SettingsMultiMap::iterator i; for (i = settings->begin(); i != settings->end(); ++i) { typeName = i->first; archName = i->second; #if OGRE_PLATFORM == OGRE_PLATFORM_APPLE Ogre::ResourceGroupManager::getSingleton().addResourceLocation( String(macBundlePath() + "/" + archName), typeName, secName); #else Ogre::ResourceGroupManager::getSingleton().addResourceLocation( archName, typeName, secName); #endif } } } void setupRenderSystem() { if (!mRoot->restoreConfig() && !mRoot->showConfigDialog()) throw Ogre::Exception(52, "User canceled the config dialog!", "OrxApplication::setupRenderSystem()"); } void createRenderWindow() { mRoot->initialise(true, "Ogre Render Window"); } void initializeResourceGroups() { Ogre::TextureManager::getSingleton().setDefaultNumMipmaps(5); Ogre::ResourceGroupManager::getSingleton().initialiseAllResourceGroups(); } void createScene(void) { // string levelFile = "sp_level_moonstation.oxw"; // loader::LevelLoader* loader = new loader::LevelLoader(levelFile); } void setupScene() { WorldEntity::sceneManager_s = mRoot->createSceneManager(Ogre::ST_GENERIC, "Default SceneManager"); Ogre::Camera *cam = WorldEntity::sceneManager_s->createCamera("Camera"); Ogre::Viewport *vp = mRoot->getAutoCreatedWindow()->addViewport(cam); } void setupInputSystem() { size_t windowHnd = 0; std::ostringstream windowHndStr; OIS::ParamList pl; Ogre::RenderWindow *win = mRoot->getAutoCreatedWindow(); win->getCustomAttribute("WINDOW", &windowHnd); windowHndStr << windowHnd; pl.insert(std::make_pair(std::string("WINDOW"), windowHndStr.str())); mInputManager = OIS::InputManager::createInputSystem(pl); try { mKeyboard = static_cast(mInputManager->createInputObject(OIS::OISKeyboard, false)); mMouse = static_cast(mInputManager->createInputObject(OIS::OISMouse, false)); } catch (const OIS::Exception &e) { throw new Ogre::Exception(42, e.eText, "OrxApplication::setupInputSystem"); } } void setupCEGUI() { Ogre::SceneManager *mgr = mRoot->getSceneManager("Default SceneManager"); Ogre::RenderWindow *win = mRoot->getAutoCreatedWindow(); // CEGUI setup // mRenderer = new CEGUI::OgreCEGUIRenderer(win, Ogre::RENDER_QUEUE_OVERLAY, false, 3000, mgr); // mSystem = new CEGUI::System(mRenderer); // Other CEGUI setup here. } void createFrameListener() { TickFrameListener* TickFL = new TickFrameListener(); mRoot->addFrameListener(TickFL); TimerFrameListener* TimerFL = new TimerFrameListener(); mRoot->addFrameListener(TimerFL); mListener = new OrxExitListener(mKeyboard); mRoot->addFrameListener(mListener); } void startRenderLoop() { mRoot->startRendering(); } }; } using namespace Ogre; //#if OGRE_PLATFORM == PLATFORM_WIN32 || OGRE_PLATFORM == OGRE_PLATFORM_WIN32 //#define WIN32_LEAN_AND_MEAN //#include "windows.h" // INT WINAPI WinMain(HINSTANCE hInst, HINSTANCE, LPSTR strCmdLine, INT) //#else int main(int argc, char **argv) //#endif { try { SignalHandler::getInstance()->doCatch(argv[0], "orxonox.log"); orxonox::OrxApplication orxonox; orxonox.go(); } catch(Exception& e) { //#if OGRE_PLATFORM == PLATFORM_WIN32 || OGRE_PLATFORM == OGRE_PLATFORM_WIN32 // MessageBoxA(NULL, e.getFullDescription().c_str(), "An exception has occurred!", MB_OK | MB_ICONERROR | MB_TASKMODAL); //#else fprintf(stderr, "An exception has occurred: %s\n", e.getFullDescription().c_str()); //#endif } return 0; }