/* set up the application parameters - read in from command line*/ static int init( int argc, char *argv[] ) { ARParam wparam; /* open the video path */ printf("Image size (x,y) = (%d,%d)\n", xsize, ysize); /* set the initial camera parameters */ if( arParamLoad(CPARA, 1, &wparam) < 0 ) { printf("Camera parameter load error !!\n"); exit(0); } arParamChangeSize( &wparam, xsize, ysize, &cparam ); arInitCparam( &cparam ); printf("*** Camera Parameter ***\n"); arParamDisp( &cparam ); /* open the graphics window */ argInit( &cparam, 1.0, 0, 2, 1, 0 ); arFittingMode = AR_FITTING_TO_IDEAL; arImageProcMode = AR_IMAGE_PROC_IN_HALF; argDrawMode = AR_DRAW_BY_TEXTURE_MAPPING; argTexmapMode = AR_DRAW_TEXTURE_FULL_IMAGE; gen_image( imgMode ); dispMode(); return 0; }
static void keyEvent( unsigned char key, int x, int y) { if( key == ' ' ) { imgMode = (imgMode+1)%3; gen_image( imgMode ); } /* quit if the ESC key is pressed */ if( key == 0x1b ) { printf("*** %f (frame/sec)\n", (double)count/arUtilTimer()); /* print out frame/sec and shut everything down */ cleanup(); exit(0); } /* turn on and off the debug mode with right mouse */ if( key == 'd' ) { printf("*** %f (frame/sec)\n", (double)count/arUtilTimer()); arDebug = 1 - arDebug; if( arDebug == 0 ) { glClearColor( 0.0, 0.0, 0.0, 0.0 ); glClear(GL_COLOR_BUFFER_BIT); argSwapBuffers(); glClear(GL_COLOR_BUFFER_BIT); argSwapBuffers(); } count = 0; dispMode(); } if( key == 'c' ) { if( argDrawMode == AR_DRAW_BY_GL_DRAW_PIXELS ) { argDrawMode = AR_DRAW_BY_TEXTURE_MAPPING; argTexmapMode = AR_DRAW_TEXTURE_FULL_IMAGE; } else if( argTexmapMode == AR_DRAW_TEXTURE_FULL_IMAGE ) { argTexmapMode = AR_DRAW_TEXTURE_HALF_IMAGE; } else { argDrawMode = AR_DRAW_BY_GL_DRAW_PIXELS; } printf("*** %f (frame/sec)\n", (double)count/arUtilTimer()); count = 0; dispMode(); } }
int main(){ auto pLogger = CB::Log::CLogger::GetInstance(); pLogger->AddStream(CB::IO::File::Open(L"main.log", CB::IO::File::AccessType::WriteOnly, CB::IO::File::OpenAction::AlwaysCreate).Cast<CB::IO::IStream>()); pLogger->AddStream(CB::IO::Console::Create().Cast<CB::IO::IStream>(), CB::Log::CTextFormatter::Create(CB::String::Encoding::ANSI).Cast<CB::Log::IEntryFormatter>()); pLogger->SetDebugMode(true); try{ auto pWinDriver = CB::Window::LoadDriver(L"MSWindowDriver"); auto pGraphicDriver = CB::Graphic::LoadDriver(L"OGLGraphicDriver"); { auto pWinManager = pWinDriver->CreateManager(); auto pGraphicManager = pGraphicDriver->CreateManager(pWinManager); CB::Math::CSize outSize(640, 480); auto pWindow = pWinManager->CreateWindow(L"GraphicTest", CB::Window::Style::Single, outSize); auto pGraphicAdapter = pGraphicManager->GetDefaultAdapter(); CB::Graphic::CDisplayMode dispMode(pWindow->GetSize(), 0, CB::Graphic::BufferFormat::B8G8R8X8); CB::Graphic::CDeviceDesc devDesc(pWindow, dispMode, CB::Graphic::BufferFormat::D24S8, false); CB::Collection::CList<CB::Graphic::FeatureLevel> featureLevels; featureLevels.Add(CB::Graphic::FeatureLevel::Level_1); auto pGraphicDevice = pGraphicAdapter->CreateDevice(pWindow, devDesc, featureLevels); pWindow->OnClose += CB::Signals::CFunc<const bool, CB::CRefPtr<CB::Window::IWindow>>(CloseEvent); pWindow->SetVisible(true); CB::Graphic::CDepthStencilStateDesc depthDesc; depthDesc.bDepthTestEnabled = true; depthDesc.uDepthFunction = CB::Graphic::CompareFunc::LessEqual; auto pDepthState = pGraphicDevice->CreateState(depthDesc); pGraphicDevice->SetState(pDepthState.Cast<CB::Graphic::IDeviceState>()); CB::Graphic::CRasterizerStateDesc rastDesc; rastDesc.uCullMode = CB::Graphic::CullMode::None; auto pRastState = pGraphicDevice->CreateState(rastDesc); pGraphicDevice->SetState(pRastState.Cast<CB::Graphic::IDeviceState>()); CB::Graphic::CBlendStateDesc blendDesc; blendDesc.ColorBlend.uDestOperand = CB::Graphic::BlendOption::OneMinusSourceAlpha; blendDesc.ColorBlend.uSourceOperand = CB::Graphic::BlendOption::SourceAlpha; blendDesc.ColorBlend.uOperation = CB::Graphic::BlendOperation::Add; blendDesc.AlphaBlend.uDestOperand = CB::Graphic::BlendOption::OneMinusSourceAlpha; blendDesc.AlphaBlend.uSourceOperand = CB::Graphic::BlendOption::SourceAlpha; blendDesc.AlphaBlend.uOperation = CB::Graphic::BlendOperation::Add; blendDesc.bEnabled[0] = true; auto pBlendState = pGraphicDevice->CreateState(blendDesc); pGraphicDevice->SetState(pBlendState.Cast<CB::Graphic::IDeviceState>()); auto pFontManager = CB::Font::CManager::Create(); auto pFontStream = CB::IO::File::Open(L"Assets/font.ttf").Cast<CB::IO::IStream>(); auto pFont = pFontManager->Load(pFontStream); pFont->SelectFace(0); pFont->SetSize(24); CB::Collection::CList<CB::Tools::CFontCharDesc> charDescs; CB::Tools::CFontTextureGenerator fontGen(pGraphicDevice); fontGen.MaxTextureSize.Set(512, 512); auto pTexture = fontGen.Generate(pFont, charDescs); CB::Tools::CTextMeshGenerator textGen(charDescs); CB::Tools::CMeshRawIVT textMesh; textGen.Generate(L"Marek M³ynarski!", textMesh); CB::Collection::CList<CB::Graphic::CVertexElement> vEls; vEls.Add(CB::Graphic::CVertexElement(0, L"vinput.vPosition", CB::Graphic::VertexType::Float, 3, 0)); vEls.Add(CB::Graphic::CVertexElement(1, L"vinput.vTexCoord", CB::Graphic::VertexType::Float, 2, 0)); GraphicTest::CShaderLoader shaders(pGraphicDevice, L"Shaders/TextureShader.cg"); auto pTextDecl = pGraphicDevice->CreateVertexDeclaration(shaders.pVertexShader, vEls); auto pTextVertexBuffer = pGraphicDevice->CreateBuffer(CB::Graphic::BufferType::Vertex, CB::Graphic::BufferUsage::Dynamic, CB::Graphic::BufferAccess::Write, textMesh.Vertices); auto pTextTCoordBuffer = pGraphicDevice->CreateBuffer(CB::Graphic::BufferType::Vertex, CB::Graphic::BufferUsage::Dynamic, CB::Graphic::BufferAccess::Write, textMesh.TexCoords); auto pTextIndexBuffer = pGraphicDevice->CreateBuffer(CB::Graphic::BufferType::Index, CB::Graphic::BufferUsage::Dynamic, CB::Graphic::BufferAccess::Write, textMesh.Indices); float32 fAspect = (float32)outSize.Width / (float32)outSize.Height; CB::Math::CMatrix mProj = CB::Math::CMatrix::GetPerspective(fAspect, 60.0f, 1.0f, 100.0f); CB::Math::CMatrix mView = CB::Math::CMatrix::GetTranslation(-4.0f, 0.0f, -3.4f); CB::Math::CMatrix mModel = CB::Math::CMatrix::GetIdentity(); shaders.pFragmentShader->SetSampler(L"texDiffuse", pTexture.Cast<CB::Graphic::IBaseTexture>()); pTexture->SetFilters(CB::Graphic::TextureFilter::Linear, CB::Graphic::TextureFilter::Linear, CB::Graphic::TextureFilter::Linear); pTexture->SetAnisotropy(8); //g_pTexture = texture.pTexture; while(g_bRun){ pGraphicDevice->Clear(1.0f, 1); pGraphicDevice->Clear(CB::Math::CColor(1.0f, 0.5f, 0.0f, 1.0f)); pGraphicDevice->BeginRender(); pGraphicDevice->SetShader(shaders.pVertexShader); pGraphicDevice->SetShader(shaders.pFragmentShader); static float32 fV = 0.0f; fV += 20 * g_Timer.GetTimeDelta(); mModel = CB::Math::CMatrix::GetRotation(CB::Math::AxisOrientation::AxisX, fV); shaders.pVertexShader->SetUniform(L"vinput.mProj", mProj); shaders.pVertexShader->SetUniform(L"vinput.mView", mView); shaders.pVertexShader->SetUniform(L"vinput.mModel", mModel); pGraphicDevice->SetVertexDeclaration(pTextDecl); pGraphicDevice->SetVertexBuffer(0, pTextVertexBuffer); pGraphicDevice->SetVertexBuffer(1, pTextTCoordBuffer); pGraphicDevice->SetIndexBuffer(pTextIndexBuffer); pGraphicDevice->RenderIndexed(textMesh.uNumberOfPolygons); pGraphicDevice->EndRender(); g_Timer.Update(); pWinManager->ProcessEvents(); float fFPS = 1.0f / (g_Timer.GetTimeDelta() == 0.0f ? 1.0f : g_Timer.GetTimeDelta()); uint32 uFPS = (uint32)fFPS; textMesh.Clear(); textGen.Generate(L"FPS: " + CB::String::ToString(uFPS), textMesh); pTextVertexBuffer->LoadData(textMesh.Vertices); pTextTCoordBuffer->LoadData(textMesh.TexCoords); pTextIndexBuffer->LoadData(textMesh.Indices); pGraphicDevice->Swap(); } g_pTexture.Release(); } } catch(CB::Exception::CException& Exception){ CB::Log::Write(Exception, CB::Log::LogLevel::Fatal); CB::Message::Show(Exception, CB::Message::Icon::Error); } return 0; }