168 lines
6 KiB
C++
168 lines
6 KiB
C++
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/*
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The program will show how to use the
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basics of the VideoDriver, the GUIEnvironment and the
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SceneManager.
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To use the engine, we will have to include the header file
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irrlicht.h, which can be found in the Irrlicht Engine SDK
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directory \include.
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*/
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#include <irrlicht.h>
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/*
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In the Irrlicht Engine, everything can be found in the namespace
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'irr'. So if you want to use a class of the engine, you have to
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write an irr:: before the name of the class. For example to use
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the IrrlichtDevice write: irr::IrrlichtDevice. To get rid of the
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irr:: in front of the name of every class, we tell the compiler
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that we use that namespace from now on, and we will not have to
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write that 'irr::'.
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*/
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using namespace irr;
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/*
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There are 5 sub namespaces in the Irrlicht Engine. Take a look
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at them, you can read a detailed description of them in the
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documentation by clicking on the top menu item 'Namespace List'
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or using this link: http://irrlicht.sourceforge.net/docu/namespaces.html.
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Like the irr Namespace, we do not want these 5 sub namespaces now,
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to keep this example simple. Hence we tell the compiler again
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that we do not want always to write their names:
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*/
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using namespace core;
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using namespace scene;
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using namespace video;
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using namespace io;
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using namespace gui;
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/*
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This is the main method. We can use void main() on every platform.
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On Windows platforms, we could also use the WinMain method
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if we would want to get rid of the console window, which pops up when
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starting a program with main(), but to keep this example simple,
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we use main().
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*/
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int main()
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{
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/*
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The most important function of the engine is the 'createDevice'
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function. The Irrlicht Device can be created with it, which is the
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root object for doing everything with the engine.
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createDevice() has 7 paramters:
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deviceType: Type of the device. This can currently be the Null-device,
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the Software device, DirectX8, DirectX9, or OpenGL. In this example we use
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EDT_SOFTWARE, but to try out, you might want to change it to
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EDT_NULL, EDT_DIRECTX8 , EDT_DIRECTX9, or EDT_OPENGL.
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windowSize: Size of the Window or FullscreenMode to be created. In this
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example we use 640x480.
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bits: Amount of bits per pixel when in fullscreen mode. This should
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be 16 or 32. This parameter is ignored when running in windowed mode.
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fullscreen: Specifies if we want the device to run in fullscreen mode
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or not.
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stencilbuffer: Specifies if we want to use the stencil buffer for drawing shadows.
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vsync: Specifies if we want to have vsync enabled, this is only useful in fullscreen
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mode.
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eventReceiver: An object to receive events. We do not want to use this
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parameter here, and set it to 0.
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*/
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IrrlichtDevice *device =
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createDevice(EDT_SOFTWARE, dimension2d<u32>(640, 480), 16,
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false, false, false, 0);
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/*
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Set the caption of the window to some nice text. Note that there is
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a 'L' in front of the string. The Irrlicht Engine uses wide character
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strings when displaying text.
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*/
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device->setWindowCaption(L"Hello World! - Irrlicht Engine Demo");
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/*
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Get a pointer to the video driver, the SceneManager and the
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graphical user interface environment, so that
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we do not always have to write device->getVideoDriver(),
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device->getSceneManager() and device->getGUIEnvironment().
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*/
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IVideoDriver* driver = device->getVideoDriver();
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ISceneManager* smgr = device->getSceneManager();
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IGUIEnvironment* guienv = device->getGUIEnvironment();
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/*
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We add a hello world label to the window, using the GUI environment.
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*/
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guienv->addStaticText(L"Hello World! This is the Irrlicht Software renderer!",
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rect<int>(10,10,200,22), true);
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/*
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To display something interesting, we load a Quake 2 model
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and display it. We only have to get the Mesh from the Scene
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Manager (getMesh()) and add a SceneNode to display the mesh.
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(addAnimatedMeshSceneNode()). Instead of writing the filename
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sydney.md2, it would also be possible to load a Maya object file
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(.obj), a complete Quake3 map (.bsp) or a Milshape file (.ms3d).
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By the way, that cool Quake 2 model called sydney was modelled
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by Brian Collins.
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*/
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IAnimatedMesh* mesh = smgr->getMesh("../../media/sydney.md2");
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IAnimatedMeshSceneNode* node = smgr->addAnimatedMeshSceneNode( mesh );
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/*
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To let the mesh look a little bit nicer, we change its material a
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little bit: We disable lighting because we do not have a dynamic light
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in here, and the mesh would be totally black. Then we set the frame
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loop, so that the animation is looped between the frames 0 and 310.
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And at last, we apply a texture to the mesh. Without it the mesh
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would be drawn using only a color.
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*/
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if (node)
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{
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node->setMaterialFlag(EMF_LIGHTING, false);
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node->setFrameLoop(0, 310);
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node->setMaterialTexture( 0, driver->getTexture("../../media/sydney.bmp") );
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}
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/*
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To look at the mesh, we place a camera into 3d space at the position
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(0, 30, -40). The camera looks from there to (0,5,0).
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*/
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smgr->addCameraSceneNode(0, vector3df(0,30,-40), vector3df(0,5,0));
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/*
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Ok, now we have set up the scene, lets draw everything:
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We run the device in a while() loop, until the device does not
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want to run any more. This would be when the user closed the window
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or pressed ALT+F4 in windows.
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*/
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while(device->run())
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{
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/*
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Anything can be drawn between a beginScene() and an endScene()
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call. The beginScene clears the screen with a color and also the
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depth buffer if wanted. Then we let the Scene Manager and the
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GUI Environment draw their content. With the endScene() call
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everything is presented on the screen.
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*/
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driver->beginScene(true, true, SColor(0,200,200,200));
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smgr->drawAll();
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guienv->drawAll();
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driver->endScene();
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}
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/*
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After we are finished, we have to delete the Irrlicht Device
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created before with createDevice(). In the Irrlicht Engine,
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you will have to delete all objects you created with a method or
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function which starts with 'create'. The object is simply deleted
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by calling ->drop().
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See the documentation at
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http://irrlicht.sourceforge.net//docu/classirr_1_1IUnknown.html#a3
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for more information.
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*/
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device->drop();
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return 0;
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}
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