source: GTP/trunk/App/Demos/Illum/SoftShadowMap/ShadowMap.cpp @ 1637

#include "dxstdafx.h"
#include "dxutmesh.h"
#include "resource.h"

#include "properties.h"

//--------------------------------------------------------------------------------------
// Entry point to the program. Initializes everything and goes into a message processing 
// loop. Idle time is used to render the scene.
//--------------------------------------------------------------------------------------
INT WINAPI WinMain( HINSTANCE, HINSTANCE, LPSTR, int )
{
    // Enable run-time memory check for debug builds.
#if defined(DEBUG) | defined(_DEBUG)
    _CrtSetDbgFlag( _CRTDBG_ALLOC_MEM_DF | _CRTDBG_LEAK_CHECK_DF );
#endif

    // Initialize the camera
    g_CamCamera.SetScalers( 0.01f, 15.0f );
    g_LightCamera.SetScalers( 0.01f, 8.0f );
    g_CamCamera.SetRotateButtons( true, false, false );
    g_LightCamera.SetRotateButtons( false, false, true );

    // Set up the view parameters for the camera
    D3DXVECTOR3 vFromPt   = D3DXVECTOR3( 0.0f, 5.0f, -18.0f );
    D3DXVECTOR3 vLookatPt = D3DXVECTOR3( 0.0f, -1.0f, 0.0f );
    g_CamCamera.SetViewParams( &vFromPt, &vLookatPt );

    vFromPt = D3DXVECTOR3( 0.0f, 0.0f, -12.0f );
    vLookatPt = D3DXVECTOR3( 0.0f, -2.0f, 1.0f );
    g_LightCamera.SetViewParams( &vFromPt, &vLookatPt );

    // Set the callback functions. These functions allow DXUT to notify
    // the application about device changes, user input, and windows messages.  The 
    // callbacks are optional so you need only set callbacks for events you're interested 
    // in. However, if you don't handle the device reset/lost callbacks then the sample 
    // framework won't be able to reset your device since the application must first 
    // release all device resources before resetting.  Likewise, if you don't handle the 
    // device created/destroyed callbacks then DXUT won't be able to 
    // recreate your device resources.
    DXUTSetCallbackDeviceCreated( OnCreateDevice );
    DXUTSetCallbackDeviceReset( OnResetDevice );
    DXUTSetCallbackDeviceLost( OnLostDevice );
    DXUTSetCallbackDeviceDestroyed( OnDestroyDevice );
    DXUTSetCallbackMsgProc( MsgProc );
    DXUTSetCallbackKeyboard( KeyboardProc );
    DXUTSetCallbackMouse( MouseProc );
    DXUTSetCallbackFrameRender( OnFrameRender );
    DXUTSetCallbackFrameMove( OnFrameMove );

    InitializeDialogs();

    // Show the cursor and clip it when in full screen
    DXUTSetCursorSettings( true, true );

    // Initialize DXUT and create the desired Win32 window and Direct3D 
    // device for the application. Calling each of these functions is optional, but they
    // allow you to set several options which control the behavior of the framework.
    DXUTInit( true, true, true ); // Parse the command line, handle the default hotkeys, and show msgboxes
    DXUTCreateWindow( L"ShadowMap Techniques" );
    DXUTCreateDevice( D3DADAPTER_DEFAULT, true, WINDOW_WIDTH, WINDOW_HEIGHT, IsDeviceAcceptable, ModifyDeviceSettings );

    // Pass control to DXUT for handling the message pump and 
    // dispatching render calls. DXUT will call your FrameMove 
    // and FrameRender callback when there is idle time between handling window messages.
    DXUTMainLoop();

    // Perform any application-level cleanup here. Direct3D device resources are released within the
    // appropriate callback functions and therefore don't require any cleanup code here.

    return DXUTGetExitCode();
}


//--------------------------------------------------------------------------------------
// Sets up the dialogs
//--------------------------------------------------------------------------------------
void InitializeDialogs()
{
    g_SettingsDlg.Init( &g_DialogResourceManager );
    g_HUD.Init( &g_DialogResourceManager );

    g_HUD.SetCallback( OnGUIEvent ); 
        
        // Initialize dialog
        int posX = 0; 
        int posY = 0; 

        // Setup for buttons
    g_HUD.AddButton( IDC_TOGGLEFULLSCREEN,                      L"Toggle full screen",          35, posY,                 125, 22 );
    g_HUD.AddButton( IDC_TOGGLEREF,                                     L"Toggle REF (F3)",                     35, posY += 24, 125, 22 );
    g_HUD.AddButton( IDC_CHANGEDEVICE,                          L"Change device (F2)",          35, posY += 24, 125, 22, VK_F2 );


        // Setup for sliders
        g_HUD.AddSlider( HUNDRED + 0, posX, posY += 40, 120, 14, g_iSliderMinValues[0], g_iSliderMaxValues[0], g_iFov );
        g_HUD.AddSlider( HUNDRED + 1, posX, posY += 16, 120, 14, g_iSliderMinValues[1], g_iSliderMaxValues[1], g_iLightFov );
        g_HUD.AddSlider( HUNDRED + 2, posX, posY += 16, 120, 14, g_iSliderMinValues[2], g_iSliderMaxValues[2], (int)( g_fLightSize * 100 ) );
        g_HUD.AddSlider( HUNDRED + 3, posX, posY += 16, 120, 14, g_iSliderMinValues[3], g_iSliderMaxValues[3], (int)( g_fIntensity * 100 ) );
        g_HUD.AddSlider( HUNDRED + 4, posX, posY += 16, 120, 14, g_iSliderMinValues[4], g_iSliderMaxValues[4], (int)( g_fShadowBias * 100 ) );
        g_HUD.AddSlider( HUNDRED + 5, posX, posY += 16, 120, 14, g_iSliderMinValues[5], g_iSliderMaxValues[5], (int)( g_fBiasSlope * 100 ) );
        g_HUD.AddSlider( HUNDRED + 6, posX, posY += 16, 120, 14, g_iSliderMinValues[6], g_iSliderMaxValues[6], g_iKernelSize );
        g_HUD.AddSlider( HUNDRED + 7, posX, posY += 16, 120, 14, g_iSliderMinValues[7], g_iSliderMaxValues[7], (int)( log( (float)g_iShadowMapSize   ) / log( 2.0f ) ) );
        g_HUD.AddSlider( HUNDRED + 8, posX, posY += 16, 120, 14, g_iSliderMinValues[8], g_iSliderMaxValues[8], (int)( log( (float)g_iFocusingMapSize ) / log( 2.0f ) ) );
        g_HUD.AddSlider( HUNDRED + 9, posX, posY += 16, 120, 14, g_iSliderMinValues[9], g_iSliderMaxValues[9], (int)( g_fLightSourceSamples * 50 ) );

        // Setup for checkbox
    g_HUD.AddCheckBox( IDC_CHECKBOX,                            L"Display GUI (F1)",            35, posY += 24, 150, 22, g_bShowText, VK_F1 );
    g_HUD.AddCheckBox( IDC_LIGHTPERSPECTIVE,            L"The light's view (V)",        35, posY += 24, 160, 22, !g_bCameraPerspective, L'V' );
    g_HUD.AddCheckBox( IDC_PAUSE_CHECKBOX,                      L"Pause (P)",                           35, posY += 24, 160, 22, g_bPause, L'P' );
        g_HUD.AddCheckBox( IDC_USE_TEXTURE_CHECKBOX,    L"Use texture (T)",                     35, posY += 24, 160, 22, g_bUseTexture, L'T' );
        g_HUD.AddCheckBox( IDC_USE_FOCUSING_CHECKBOX,   L"Use focusing (F)",            35, posY += 24, 160, 22, g_bUseFocusing, L'F' );
        

        g_HUD.AddComboBox( IDC_METHOD_COMBO_BOX, 60, posY + 40, 130, 20, 0, false, &g_pTechniquesListComboBox );

        g_pTechniquesListComboBox->SetDropHeight(105);

        g_pTechniquesListComboBox->AddItem( L"0-Reference", NULL );
        g_pTechniquesListComboBox->AddItem( L"6-PC soft", NULL );
    g_pTechniquesListComboBox->AddItem( L"7-Shadow accu", NULL );

        // number of items above: 0 .. 2 = 3
        g_iNumberOfMethods = 3;
}


//--------------------------------------------------------------------------------------
// Called during device initialization, this code checks the device for some 
// minimum set of capabilities, and rejects those that don't pass by returning false.
//--------------------------------------------------------------------------------------
bool CALLBACK IsDeviceAcceptable( D3DCAPS9* pCaps, D3DFORMAT AdapterFormat, 
                                  D3DFORMAT BackBufferFormat, bool bWindowed, void* pUserContext )
{
    // Skip backbuffer formats that don't support alpha blending
    IDirect3D9* pD3D = DXUTGetD3DObject(); 
    if( FAILED( pD3D->CheckDeviceFormat( pCaps->AdapterOrdinal, pCaps->DeviceType,
                    AdapterFormat, D3DUSAGE_QUERY_POSTPIXELSHADER_BLENDING, 
                    D3DRTYPE_TEXTURE, BackBufferFormat ) ) )
        return false;

    // Must support pixel shader 2.0
    if( pCaps->PixelShaderVersion < D3DPS_VERSION( 2, 0 ) )
        return false;

    // Check support of the used texture formats.

    // need to support D3DFMT_A8R8G8B8 format
    if( FAILED( pD3D->CheckDeviceFormat( pCaps->AdapterOrdinal, pCaps->DeviceType,
                    AdapterFormat, D3DUSAGE_DYNAMIC, 
                    D3DRTYPE_TEXTURE, D3DFMT_A8R8G8B8 ) ) )
        return false;

        // need to support D3DFMT_A32B32G32R32F format
    if( FAILED( pD3D->CheckDeviceFormat( pCaps->AdapterOrdinal, pCaps->DeviceType,
                    AdapterFormat, D3DUSAGE_RENDERTARGET, 
                    D3DRTYPE_TEXTURE, D3DFMT_A32B32G32R32F ) ) )
        return false;

        // need to support D3DFMT_A32B32G32R32F format
    if( FAILED( pD3D->CheckDeviceFormat( pCaps->AdapterOrdinal, pCaps->DeviceType,
                    AdapterFormat, D3DUSAGE_DYNAMIC, 
                    D3DRTYPE_TEXTURE, D3DFMT_A32B32G32R32F ) ) )
        return false;

        // need to support D3DFMT_D24S8 format
    if( FAILED( pD3D->CheckDeviceFormat( pCaps->AdapterOrdinal, pCaps->DeviceType,
                    AdapterFormat, D3DUSAGE_DEPTHSTENCIL, 
                    D3DRTYPE_TEXTURE, D3DFMT_D24S8 ) ) )
        return false;

    return true;
}


//--------------------------------------------------------------------------------------
// This callback function is called immediately before a device is created to allow the 
// application to modify the device settings. The supplied pDeviceSettings parameter 
// contains the settings that the framework has selected for the new device, and the 
// application can make any desired changes directly to this structure.  Note however that 
// DXUT will not correct invalid device settings so care must be taken 
// to return valid device settings, otherwise IDirect3D9::CreateDevice() will fail.  
//--------------------------------------------------------------------------------------
bool CALLBACK ModifyDeviceSettings( DXUTDeviceSettings* pDeviceSettings, const D3DCAPS9* pCaps, void* pUserContext )
{
        // Turn off VSYNC
        pDeviceSettings->pp.PresentationInterval = D3DPRESENT_INTERVAL_IMMEDIATE;


    // If device doesn't support HW T&L or doesn't support 1.1 vertex shaders in HW 
    // then switch to SWVP.
    if( (pCaps->DevCaps & D3DDEVCAPS_HWTRANSFORMANDLIGHT) == 0 ||
         pCaps->VertexShaderVersion < D3DVS_VERSION(1,1) )
    {
        pDeviceSettings->BehaviorFlags = D3DCREATE_SOFTWARE_VERTEXPROCESSING;
    }

    // Debugging vertex shaders requires either REF or software vertex processing 
    // and debugging pixel shaders requires REF.  
#ifdef DEBUG_VS
    if( pDeviceSettings->DeviceType != D3DDEVTYPE_REF )
    {
        pDeviceSettings->BehaviorFlags &= ~D3DCREATE_HARDWARE_VERTEXPROCESSING;
        pDeviceSettings->BehaviorFlags &= ~D3DCREATE_PUREDEVICE;                            
        pDeviceSettings->BehaviorFlags |= D3DCREATE_SOFTWARE_VERTEXPROCESSING;
    }
#endif
#ifdef DEBUG_PS
    pDeviceSettings->DeviceType = D3DDEVTYPE_REF;
#endif
    // For the first device created if its a REF device, optionally display a warning dialog box
    static bool s_bFirstTime = true;
    if( s_bFirstTime )
    {
        s_bFirstTime = false;
        if( pDeviceSettings->DeviceType == D3DDEVTYPE_REF )
            DXUTDisplaySwitchingToREFWarning();
    }

    return true;
}


//--------------------------------------------------------------------------------------
// This callback function will be called immediately after the Direct3D device has been 
// created, which will happen during application initialization and windowed/full screen 
// toggles. This is the best location to create D3DPOOL_MANAGED resources since these 
// resources need to be reloaded whenever the device is destroyed. Resources created  
// here should be released in the OnDestroyDevice callback. 
//--------------------------------------------------------------------------------------
HRESULT CALLBACK OnCreateDevice( IDirect3DDevice9* pd3dDevice, const D3DSURFACE_DESC* pBackBufferSurfaceDesc, void* pUserContext )
{
    HRESULT hr;

        g_pd3dDevice = pd3dDevice;

    V_RETURN( g_DialogResourceManager.OnCreateDevice( pd3dDevice ) );
    V_RETURN( g_SettingsDlg.OnCreateDevice( pd3dDevice ) );

    // Initialize the font
    V_RETURN( D3DXCreateFont( pd3dDevice, 15, 0, FW_BOLD, 1, FALSE, DEFAULT_CHARSET, 
                         OUT_DEFAULT_PRECIS, DEFAULT_QUALITY, DEFAULT_PITCH | FF_DONTCARE, 
                         L"Arial", &g_pFont ) );
    V_RETURN( D3DXCreateFont( pd3dDevice, 12, 0, FW_BOLD, 1, FALSE, DEFAULT_CHARSET, 
                         OUT_DEFAULT_PRECIS, DEFAULT_QUALITY, DEFAULT_PITCH | FF_DONTCARE, 
                         L"Arial", &g_pFontSmall ) );

    // Define DEBUG_VS and/or DEBUG_PS to debug vertex and/or pixel shaders with the 
    // shader debugger. Debugging vertex shaders requires either REF or software vertex 
    // processing, and debugging pixel shaders requires REF.  The 
    // D3DXSHADER_FORCE_*_SOFTWARE_NOOPT flag improves the debug experience in the 
    // shader debugger.  It enables source level debugging, prevents instruction 
    // reordering, prevents dead code elimination, and forces the compiler to compile 
    // against the next higher available software target, which ensures that the 
    // unoptimized shaders do not exceed the shader model limitations.  Setting these 
    // flags will cause slower rendering since the shaders will be unoptimized and 
    // forced into software.  See the DirectX documentation for more information about 
    // using the shader debugger.
        DWORD dwShaderFlags = D3DXFX_NOT_CLONEABLE | D3DXSHADER_PREFER_FLOW_CONTROL;
    #ifdef DEBUG_VS
        dwShaderFlags |= D3DXSHADER_FORCE_VS_SOFTWARE_NOOPT;
    #endif
    #ifdef DEBUG_PS
        dwShaderFlags |= D3DXSHADER_FORCE_PS_SOFTWARE_NOOPT;
    #endif


    // If this fails, there should be debug output as to 
    // they the .fx file failed to compile

        // Read the D3DX effect file
        ID3DXBuffer* errBuff = NULL;
        if( FAILED(D3DXCreateEffectFromFile( pd3dDevice, L"ShadowMap.fx", NULL, NULL, dwShaderFlags, NULL, &g_pEffect, &errBuff )))
        {
                int BufSize = errBuff->GetBufferSize();

                // displaying error message of arbitrary length
                wchar_t* wbuf = new wchar_t[BufSize];
                size_t convertedChars = 0;
//              mbstowcs_s(&convertedChars, wbuf, BufSize, (const char*)errBuff->GetBufferPointer(), _TRUNCATE);
//              MessageBox(NULL, wbuf, L".fx Compilation Error", MB_ICONERROR);         // show error message

                delete wbuf;
                exit(-1);
        }

    // Create vertex declaration
    V_RETURN( pd3dDevice->CreateVertexDeclaration( g_aVertDecl, &g_pVertDecl ) );

    WCHAR str[MAX_PATH];

    // Initialize the meshes
    for( int i = 0; i < NUM_OBJ; ++i )
    {
        V_RETURN( DXUTFindDXSDKMediaFileCch( str, MAX_PATH, g_aszMeshFile[i] ) );
        if( FAILED( g_Obj[i].m_Mesh.Create( pd3dDevice, str ) ) )
            return DXUTERR_MEDIANOTFOUND;
        V_RETURN( g_Obj[i].m_Mesh.SetVertexDecl( pd3dDevice, g_aVertDecl ) );
        g_Obj[i].m_mWorld = g_amInitObjWorld[i];
    }

        // Compute Room bounding box
        void* data;
        D3DXVECTOR3 vRoomBoundingBoxMin3f;                      // Bounding box of room min point
        D3DXVECTOR3 vRoomBoundingBoxMax3f;                      // Bounding box of room max point
        g_Obj[0].m_Mesh.m_pVB->Lock(0,0,&data,0);
        D3DXVECTOR3 min,max;
        D3DVERTEXBUFFER_DESC descriptor;
        g_Obj[0].m_Mesh.m_pVB->GetDesc(  &descriptor);
        UINT stride = D3DXGetFVFVertexSize(descriptor.FVF);
        D3DXComputeBoundingBox((D3DXVECTOR3*)data, descriptor.Size / stride, stride, &vRoomBoundingBoxMin3f, &vRoomBoundingBoxMax3f);

        g_fRoomRadius = (float)sqrt( pow( (double)( vRoomBoundingBoxMax3f.x - vRoomBoundingBoxMin3f.x ), 2.0 ) +
                                                         pow( (double)( vRoomBoundingBoxMax3f.y - vRoomBoundingBoxMin3f.y ), 2.0 ) +
                                                     pow( (double)( vRoomBoundingBoxMax3f.z - vRoomBoundingBoxMin3f.z ), 2.0 ) ) / 2.0f;

    // Initialize the light mesh
    V_RETURN( DXUTFindDXSDKMediaFileCch( str, MAX_PATH, L"media\\objects\\spotlight.x" ) );
    if( FAILED( g_LightMesh.Create( pd3dDevice, str ) ) )
        return DXUTERR_MEDIANOTFOUND;
    V_RETURN( g_LightMesh.SetVertexDecl( pd3dDevice, g_aVertDecl ) );

    // World transform to identity
    D3DXMATRIXA16 mIdent;
    D3DXMatrixIdentity( &mIdent );
    V_RETURN( pd3dDevice->SetTransform( D3DTS_WORLD, &mIdent ) );

        // Calculates the real samples on the light source
        g_fRealSamples = 0;
        for( float x = 0.5f / g_fLightSourceSamples; x < g_fLightSourceSamples; x++ )
        {
                for( float y = 0.5f / g_fLightSourceSamples; y < g_fLightSourceSamples; y++ )
                {
                        if( x * x + y * y < g_fLightSourceSamples * g_fLightSourceSamples )
                        {
                                g_fRealSamples++;
                        }
                }
        }
        g_fRealSamples = 1.0f / g_fRealSamples;

    return S_OK;
}


//--------------------------------------------------------------------------------------
// This callback function will be called immediately after the Direct3D device has been 
// reset, which will happen after a lost device scenario. This is the best location to 
// create D3DPOOL_DEFAULT resources since these resources need to be reloaded whenever 
// the device is lost. Resources created here should be released in the OnLostDevice 
// callback. 
//--------------------------------------------------------------------------------------
HRESULT CALLBACK OnResetDevice( IDirect3DDevice9* pd3dDevice, 
                                const D3DSURFACE_DESC* pBackBufferSurfaceDesc, void* pUserContext )
{
    HRESULT hr;

    V_RETURN( g_DialogResourceManager.OnResetDevice() );
    V_RETURN( g_SettingsDlg.OnResetDevice() );

    if( g_pFont )
        V_RETURN( g_pFont->OnResetDevice() );
    if( g_pFontSmall )
        V_RETURN( g_pFontSmall->OnResetDevice() );
    if( g_pEffect )
        V_RETURN( g_pEffect->OnResetDevice() );

    // Create a sprite to help batch calls when drawing many lines of text
    V_RETURN( D3DXCreateSprite( pd3dDevice, &g_pTextSprite ) );

    // Setup the camera's projection parameters
    float fAspectRatio = pBackBufferSurfaceDesc->Width / (FLOAT)pBackBufferSurfaceDesc->Height;
    g_CamCamera.SetProjParams( D3DX_PI/4, fAspectRatio, g_fLightFrontPlane, g_fLightBackPlane );
    g_LightCamera.SetProjParams( D3DX_PI/4, fAspectRatio, g_fLightFrontPlane, g_fLightBackPlane );

    // Create the default texture (used when a triangle does not use a texture)
    V_RETURN( pd3dDevice->CreateTexture( 1, 1, 1, D3DUSAGE_DYNAMIC, D3DFMT_A8R8G8B8, D3DPOOL_DEFAULT, &g_pDefaultTexture, NULL ) );
    D3DLOCKED_RECT lr;
    V_RETURN( g_pDefaultTexture->LockRect( 0, &lr, NULL, 0 ) );
    *(LPDWORD)lr.pBits = D3DCOLOR_RGBA( 255, 255, 255, 255 );
    V_RETURN( g_pDefaultTexture->UnlockRect( 0 ) );

    // Restore the scene objects
    for( int i = 0; i < NUM_OBJ; ++i )
        V_RETURN( g_Obj[i].m_Mesh.RestoreDeviceObjects( pd3dDevice ) );
    V_RETURN( g_LightMesh.RestoreDeviceObjects( pd3dDevice ) );
    
        // Create textures
    CreateTexture();
        
        // Positon the HUD
    g_HUD.SetLocation( pBackBufferSurfaceDesc->Width-170, 0 );
    g_HUD.SetSize( 170, pBackBufferSurfaceDesc->Height );


        // Create vertex declaration for the fullscreen quad
        V( pd3dDevice->CreateVertexDeclaration( g_aFullScreneQuadVertex, &g_pFullScreenQuadVertexDeclaration ) );
        V_RETURN( pd3dDevice->CreateVertexBuffer( 6 * sizeof( FullScreenQuadVertexStruct ),
                D3DUSAGE_WRITEONLY, D3DFVF_FULLSCREENQUADVERTEX, D3DPOOL_DEFAULT, &g_pFullScreenQuadVertexBuffer, NULL ) );

        void* pVertices;
        V( g_pFullScreenQuadVertexBuffer->Lock( 0, sizeof( fullscreen ), (void**)&pVertices, 0 ) );
        memcpy( pVertices, fullscreen, sizeof( fullscreen ) );
        g_pFullScreenQuadVertexBuffer->Unlock();

        return S_OK;
}

//--------------------------------------------------------------------------------------
// Creates textures
// They can be resized on the fly
//--------------------------------------------------------------------------------------
void CreateTexture()
{
        HRESULT hr;
    
        SAFE_RELEASE( g_pShadowMapColorTexture );
        SAFE_RELEASE( g_pShadowMapColorSurface );
        SAFE_RELEASE( g_pShadowWeightTexture );
        SAFE_RELEASE( g_pShadowWeightSurface );
        SAFE_RELEASE( g_pShadowMapZTexture );
        SAFE_RELEASE( g_pShadowMapZSurface );
        SAFE_RELEASE( g_pShadowWeightZTexture );
        SAFE_RELEASE( g_pShadowWeightZSurface );
    SAFE_RELEASE( g_pFocusingMapColorTexture );
        SAFE_RELEASE( g_pFocusingMapColorSurface );
        SAFE_RELEASE( g_pMemoryMappedTexture );
        SAFE_RELEASE( g_pMemoryMappedTextureSurface );


        // Create the shadow map texture
    V( g_pd3dDevice->CreateTexture( g_iShadowMapSize, g_iShadowMapSize,
                                         1, D3DUSAGE_RENDERTARGET,
                                         D3DFMT_A32B32G32R32F,
                                         D3DPOOL_DEFAULT,
                                         &g_pShadowMapColorTexture,
                                         NULL ) );

        V( g_pShadowMapColorTexture->GetSurfaceLevel( 0, &g_pShadowMapColorSurface ) );


        V( g_pd3dDevice->CreateTexture( g_iShadowMapSize, g_iShadowMapSize,
                                         1, D3DUSAGE_RENDERTARGET,
                                         D3DFMT_A16B16G16R16F,
                                                                                 //D3DFMT_A32B32G32R32F,
                                         D3DPOOL_DEFAULT,
                                         &g_pShadowWeightTexture,
                                         NULL ) );

        V( g_pShadowWeightTexture->GetSurfaceLevel( 0, &g_pShadowWeightSurface ) );

        // Create the depth stencil texture
    V( g_pd3dDevice->CreateTexture( g_iShadowMapSize, g_iShadowMapSize,
                                                                                 1, D3DUSAGE_DEPTHSTENCIL,
                                                                                 D3DFMT_D24S8,
                                         D3DPOOL_DEFAULT,
                                         &g_pShadowMapZTexture,
                                         NULL ) );

        V( g_pShadowMapZTexture->GetSurfaceLevel( 0, &g_pShadowMapZSurface ) );

         V( g_pd3dDevice->CreateTexture( g_iShadowMapSize, g_iShadowMapSize,
                                                                                 1, D3DUSAGE_DEPTHSTENCIL,
                                                                                 D3DFMT_D24S8,
                                         D3DPOOL_DEFAULT,
                                         &g_pShadowWeightZTexture,
                                         NULL ) );

        V( g_pShadowWeightZTexture->GetSurfaceLevel( 0, &g_pShadowWeightZSurface ) );

        // Create the focusing map texture
    V( g_pd3dDevice->CreateTexture( g_iFocusingMapSize, g_iFocusingMapSize,
                                         1, D3DUSAGE_RENDERTARGET,
                                         D3DFMT_A32B32G32R32F,
                                         D3DPOOL_DEFAULT,
                                         &g_pFocusingMapColorTexture,
                                         NULL ) );

        V( g_pFocusingMapColorTexture->GetSurfaceLevel( 0, &g_pFocusingMapColorSurface ) );

        // Memory mapped texture
        V( g_pd3dDevice->CreateTexture( g_iFocusingMapSize, g_iFocusingMapSize,
                                                                                 1, D3DUSAGE_DYNAMIC,
                                         D3DFMT_A32B32G32R32F,
                                         D3DPOOL_SYSTEMMEM,
                                         &g_pMemoryMappedTexture,
                                         NULL ) );

        V( g_pMemoryMappedTexture->GetSurfaceLevel( 0, &g_pMemoryMappedTextureSurface ) );
}

//--------------------------------------------------------------------------------------
// This callback function will be called once at the beginning of every frame. This is the
// best location for your application to handle updates to the scene, but is not 
// intended to contain actual rendering calls, which should instead be placed in the 
// OnFrameRender callback.  
//--------------------------------------------------------------------------------------
void CALLBACK OnFrameMove( IDirect3DDevice9* pd3dDevice, double fTime, float fElapsedTime, void* pUserContext )
{
    // Update the camera's position based on user input 
    g_CamCamera.FrameMove( fElapsedTime );
    g_LightCamera.FrameMove( fElapsedTime );

        if( !g_bPause )
        {
                // Animate the plane, car and sphere meshes
                D3DXMATRIXA16 m;

                D3DXMatrixRotationY( &m, D3DX_PI * fElapsedTime / 4.0f );
                D3DXMatrixMultiply( &g_Obj[1].m_mWorld, &g_Obj[1].m_mWorld, &m );
                D3DXMatrixRotationY( &m, -D3DX_PI * fElapsedTime / 4.0f );
                D3DXMatrixMultiply( &g_Obj[2].m_mWorld, &g_Obj[2].m_mWorld, &m );
        }
}


//--------------------------------------------------------------------------------------
// Renders the scene onto the current render target using the current
// technique in the effect.
//--------------------------------------------------------------------------------------
void RenderScene( IDirect3DDevice9* pd3dDevice, float fElapsedTime, const D3DXMATRIX *pmView, const D3DXMATRIX *pmProj )
{
    HRESULT hr;

    // Initialize required parameter
        V( g_pEffect->SetTexture( "g_txShadowMapColor", g_pShadowMapColorTexture ) );
        V( g_pEffect->SetTexture( "g_txShadowWeight", g_pShadowWeightTexture ) );
        V( g_pEffect->SetTexture( "g_txShadowMapZ",             g_pShadowMapZTexture ) );

        V( g_pEffect->SetFloat( "g_fFov",                               ( (float)g_iFov ) / 57.2958f ) );
        V( g_pEffect->SetFloat( "g_fLightSize",                 g_fLightSize ) );
        V( g_pEffect->SetFloat( "g_fIntensity",                 g_fIntensity ) );
        V( g_pEffect->SetFloat( "g_fShadowBias",                g_fShadowBias ) );
        V( g_pEffect->SetFloat( "near",                                 g_fLightFrontPlane ) );
        V( g_pEffect->SetFloat( "far",                                  g_fLightBackPlane ) );
        V( g_pEffect->SetFloat( "SHADOWMAP_SIZE",               (float)g_iShadowMapSize));
        V( g_pEffect->SetFloat( "HALF_TEXEL",                   0.5f / (float)g_iShadowMapSize));
        V( g_pEffect->SetFloat( "g_fBiasSlope",                 g_fBiasSlope) );
        V( g_pEffect->SetFloat( "g_fRealSamples",               g_fRealSamples ) );
        V( g_pEffect->SetInt(   "g_iKernelSize",                g_iKernelSize ) );
        

        V( g_pEffect->SetBool( "g_bRenderBaseTexture", g_bRenderBaseTexture ) );
        
        //set special texture matrix for shadow mapping
    float fOffsetX = 0.5f + (0.5f / (float)g_iShadowMapSize);
    float fOffsetY = 0.5f + (0.5f / (float)g_iShadowMapSize);
        unsigned int range = 1;            //note different scale in DX9!
    //float fBias    = -0.001f * (float)range;
    float fBias    = 0.0f;
    D3DXMATRIXA16 texScaleBiasMat(      0.5f,     0.0f,     0.0f,         0.0f,
                                                                        0.0f,    -0.5f,     0.0f,         0.0f,
                                                                        0.0f,     0.0f,     (float)range, 0.0f,
                                                                        fOffsetX, fOffsetY, -g_fShadowBias/1000.0f, 1.0f );

        V( g_pEffect->SetMatrix( "TexScaleBias", &texScaleBiasMat ) );


    // Choose the right shader method
        switch( g_iShadowMethod )
        {
                case 0:
                {
                        if( g_bRenderShadowMap )
                        {
                                V( g_pEffect->SetTechnique( "RenderShadowMap_0" ) );
                        }
                        else
                        {
                                V( g_pEffect->SetTechnique( "RenderSceneWithTechnique_0" ) );
                        }
                        break;
                }
                case 1:
                {
                        if( g_bRenderShadowMap )
                        {
                                V( g_pEffect->SetTechnique( "RenderShadowMap_6" ) );
                        }
                        else
                        {
                                V( g_pEffect->SetTechnique( "RenderSceneWithTechnique_6" ) );
                        }
                        break;
                }
                case 2:
                {
                        if( g_bRenderShadowMap )
                        {
                                V( g_pEffect->SetTechnique( "RenderShadowMap_7" ) );
                        }
                        else
                        {
                                V( g_pEffect->SetTechnique( "RenderSceneWithTechnique_7" ) );
                        }
                        break;
                }
        }

        if( g_bRenderFocusingMap )
        {
                V( g_pEffect->SetTechnique( "RenderFocusingMap" ) );
        }


        // Begin the scene
    if( SUCCEEDED( pd3dDevice->BeginScene() ) )
    {   
                if( !g_bRenderGUI )
                {
                        // Render the objects
                        for( int obj = 0; obj < NUM_OBJ; ++obj )
                        {
                                D3DXMATRIXA16 mWorld, mWorldView, mWorldViewProj;
                                mWorld = g_Obj[obj].m_mWorld;
                                D3DXMatrixMultiply( &mWorldView, &mWorld, pmView );
                                D3DXMatrixMultiply( &mWorldViewProj, &mWorldView, pmProj );
                                V( g_pEffect->SetMatrix( "WorldViewProj", &mWorldViewProj ) );

                                // Compute the view matrix for the light
                                D3DXMATRIXA16 mLightView, WorldLight, WorldLightProj;
                                
                                if( g_bRenderBaseTexture )
                                {
                                        mLightView = *g_LightCamera.GetViewMatrix();
                                }
                                else
                                {
                                        mLightView = g_mLightView;
                                }

                                D3DXMatrixMultiply( &WorldLight, &mWorld, &mLightView );
                                V( g_pEffect->SetMatrix( "WorldLight", &WorldLight ) );
                                
                                D3DXMatrixMultiply( &WorldLightProj, &WorldLight, &g_mLightProj );
                                V( g_pEffect->SetMatrix( "WorldLightProj", &WorldLightProj ) );

                                LPD3DXMESH pMesh = g_Obj[obj].m_Mesh.GetMesh();
                                UINT cPass;
                                V( g_pEffect->Begin( &cPass, 0 ) );
                                for( UINT p = 0; p < cPass; ++p )
                                {
                                        V( g_pEffect->BeginPass( p ) );

                                        for( DWORD i = 0; i < g_Obj[obj].m_Mesh.m_dwNumMaterials; ++i )
                                        {
                                                D3DXVECTOR4 vDif( g_Obj[obj].m_Mesh.m_pMaterials[i].Diffuse.r,
                                                                                  g_Obj[obj].m_Mesh.m_pMaterials[i].Diffuse.g,
                                                                                  g_Obj[obj].m_Mesh.m_pMaterials[i].Diffuse.b,
                                                                                  g_Obj[obj].m_Mesh.m_pMaterials[i].Diffuse.a );
                                                if( g_bUseTexture )
                                                {
                                                        V( g_pEffect->SetVector( "g_vMaterial", &vDif ) );
                                                        if( g_Obj[obj].m_Mesh.m_pTextures[i] )
                                                        {
                                                                V( g_pEffect->SetTexture( "g_txDefaultTexture", g_Obj[obj].m_Mesh.m_pTextures[i] ) )
                                                        }
                                                        else
                                                        {
                                                                V( g_pEffect->SetTexture( "g_txDefaultTexture", g_pDefaultTexture ) )
                                                        }
                                                }
                                                else
                                                {
                                                        V( g_pEffect->SetVector( "g_vMaterial", &D3DXVECTOR4(1,1,1,1) ) );
                                                        V( g_pEffect->SetTexture( "g_txDefaultTexture", g_pDefaultTexture ) );
                                                }
                                                V( g_pEffect->CommitChanges() );
                                                V( pMesh->DrawSubset( i ) );
                                        }
                                        V( g_pEffect->EndPass() );
                                }
                                V( g_pEffect->End() );
                        }

                        // Render light source
                        if( !g_bRenderGUI && g_bRenderBaseTexture && !g_bRenderShadowMap && !g_bRenderFocusingMap && g_bCameraPerspective )
                        {
                                V( g_pEffect->SetTechnique( "RenderLight" ) );

                                D3DXMATRIXA16 mWorldView = *g_LightCamera.GetWorldMatrix();
                                D3DXMatrixMultiply( &mWorldView, &mWorldView, pmView );
                                D3DXMatrixMultiply( &mWorldView, &mWorldView, pmProj );
                                V( g_pEffect->SetMatrix( "WorldViewProj", &mWorldView ) );

                                UINT cPass;
                                LPD3DXMESH pMesh = g_LightMesh.GetMesh();
                                V( g_pEffect->Begin( &cPass, 0 ) );
                                for( UINT p = 0; p < cPass; ++p )
                                {
                                        V( g_pEffect->BeginPass( p ) );

                                        for( DWORD i = 0; i < g_LightMesh.m_dwNumMaterials; ++i )
                                        {                                     
                                                V( g_pEffect->SetTexture( "g_txDefaultTexture", g_LightMesh.m_pTextures[i] ) );
                                                V( g_pEffect->CommitChanges() );
                                                V( pMesh->DrawSubset( i ) );
                                        }
                                        V( g_pEffect->EndPass() );
                                }
                                V( g_pEffect->End() );
                        }
                }

                if( g_bRenderGUI && !g_bRenderShadowMap && !g_bRenderFocusingMap ){
            // Render stats and help text
            RenderText();

                        // Render the UI elements
            g_HUD.OnRender( fElapsedTime );
                }
        V( pd3dDevice->EndScene() );
    }
}

//--------------------------------------------------------------------------------------
// Computes the focusing matrix
//--------------------------------------------------------------------------------------
void ComputeFocusingMatrix( IDirect3DDevice9* g_pd3dDevice )
{
        float fMinU = 1.0f, fMinV = 1.0f;               // min must start from 1 to decrease
        float fMaxU = -1.0f, fMaxV = -1.0f;             // max must start from -1 to increase

        g_pd3dDevice->GetRenderTargetData( g_pFocusingMapColorSurface, g_pMemoryMappedTextureSurface );

        // Calculate U and V, max and min values.
        D3DLOCKED_RECT pmLRect;
        g_pMemoryMappedTexture->LockRect(0, &pmLRect, NULL, D3DLOCK_DISCARD);
        for ( long int i = 0; i < g_iFocusingMapSize * g_iFocusingMapSize ; i++)
        {
                fMinU = min( fMinU, ( (float*)pmLRect.pBits)[4 * i] );
                fMaxU = max( fMaxU, ( (float*)pmLRect.pBits)[4 * i] );

                fMinV = min( fMinV, ( (float*)pmLRect.pBits)[4 * i + 1] );
                fMaxV = max( fMaxV, ( (float*)pmLRect.pBits)[4 * i + 1] );
        }
        g_pMemoryMappedTexture->UnlockRect(0);

        g_mFocusingMatrix = D3DXMATRIXA16(  2.0f/( fMaxU - fMinU ),                             0.0f,                                                           0.0f,   0.0f,
                                        0.0f,                                                           2.0f/( fMaxV - fMinV ),                         0.0f,   0.0f,
                                        0.0f,                                                           0.0f,                                                           1.0f,   0.0f,
                                                                                -(fMaxU+fMinU)/( fMaxU - fMinU ),   -(fMinV+fMaxV)/( fMaxV - fMinV ),   0.0f,   1.0f);
}


//--------------------------------------------------------------------------------------
// This callback function will be called at the end of every frame to perform all the 
// rendering calls for the scene, and it will also be called if the window needs to be 
// repainted. After this function has returned, DXUT will call 
// IDirect3DDevice9::Present to display the contents of the next buffer in the swap chain
//--------------------------------------------------------------------------------------
void CALLBACK OnFrameRender( IDirect3DDevice9* pd3dDevice, double fTime, float fElapsedTime, void* pUserContext )
{
        // If the settings dialog is being shown, then
    // render it instead of rendering the app's scene
    if( g_SettingsDlg.IsActive() && g_bShowText && !g_bSaveFrame )
    {
        g_SettingsDlg.OnRender( fElapsedTime );
        return;
    }

    HRESULT hr;

        // Compute the view matrix for the light
        D3DXMATRIXA16 mLightView = *g_LightCamera.GetViewMatrix();
        D3DXVECTOR3 vLightEyePt = *g_LightCamera.GetEyePt();
        float fLightDist = sqrt( vLightEyePt.x * vLightEyePt.x + vLightEyePt.y * vLightEyePt.y + vLightEyePt.z * vLightEyePt.z ); 

        // The light is inside of the room
        g_fLightFrontPlane = 0.1f;
        g_fLightBackPlane  = 7.0f * g_fRoomRadius;
        // 3.5 is the scale factor defined in room world matrix
        if( 3.5f * g_fRoomRadius <= fLightDist ){
                //  The light is outside of the room
                g_fLightFrontPlane = fLightDist - 3.5f * g_fRoomRadius;
                g_fLightBackPlane  = fLightDist + 3.5f * g_fRoomRadius;
        }

        D3DXMatrixPerspectiveFovLH( &g_mLightProj, D3DXToRadian(g_iLightFov), 1, g_fLightFrontPlane, g_fLightBackPlane );
        const D3DXMATRIX *pmView = g_bCameraPerspective ? g_CamCamera.GetViewMatrix() : &mLightView;
        const D3DXMATRIX *pmProj = g_bCameraPerspective ? g_CamCamera.GetProjMatrix() : &g_mLightProj;

        // save original
    LPDIRECT3DSURFACE9 pOldRT = NULL;
    V( pd3dDevice->GetRenderTarget( 0, &pOldRT ) );
        LPDIRECT3DSURFACE9 pOldDS = NULL;
        V( SUCCEEDED( pd3dDevice->GetDepthStencilSurface( &pOldDS ) ) );

        
        V( g_pd3dDevice->SetRenderState( D3DRS_CULLMODE, D3DCULL_CCW ) );

        // Render: FOCUSING MAP  --------------------------------------------------------------------------------
        if( g_bUseFocusing ){
                pd3dDevice->SetRenderTarget( 0, g_pFocusingMapColorSurface );
                pd3dDevice->SetDepthStencilSurface( g_pShadowMapZSurface );

                g_bRenderFocusingMap = true;
                RenderScene( pd3dDevice, fElapsedTime, g_CamCamera.GetViewMatrix(), g_CamCamera.GetProjMatrix() );
                ComputeFocusingMatrix( pd3dDevice );
                g_bRenderFocusingMap = false;

                if( g_iShadowMethod != 2 ){  // The 2. method does not use Focusing
                        D3DXMatrixMultiply( &g_mLightProj, &g_mLightProj, &g_mFocusingMatrix );
                }
        }
        // Render: FOCUSING MAP  --------------------------------------------------------------------------------

        g_mLightView = *g_LightCamera.GetViewMatrix();
        if( g_iShadowMethod == 0 )
        {
                // Render: to blend - Base texture --------------------------------------------------------------------------------
                pd3dDevice->SetRenderTarget( 0, g_pShadowWeightSurface );
                pd3dDevice->SetDepthStencilSurface( g_pShadowWeightZSurface );
                pd3dDevice->Clear( 0L, NULL, D3DCLEAR_TARGET|D3DCLEAR_ZBUFFER, 0x00000000, 1.0f, 0L );
                
                g_bRenderBaseTexture = true;
                RenderScene( pd3dDevice, fElapsedTime, pmView, pmProj );
                g_bRenderBaseTexture = false;
                // Render: to blend - Base texture --------------------------------------------------------------------------------


                // Render: to blend - additional shadow --------------------------------------------------------------------------------
                g_pd3dDevice->SetRenderState(D3DRS_SRCBLEND,  D3DBLEND_ONE );
                g_pd3dDevice->SetRenderState(D3DRS_DESTBLEND, D3DBLEND_ONE );
                g_pd3dDevice->SetRenderState(D3DRS_ALPHABLENDENABLE, true);
                g_pd3dDevice->SetRenderState(D3DRS_ALPHATESTENABLE, false);
                
                
                float partial = g_fLightSize / 2.0f;
                float step = g_fLightSize / ( g_fLightSourceSamples * 2.0f );

                for( float x = -partial + step; x < partial; x+=step )
                {
                        for( float y = -partial + step; y < partial; y+=step )
                        {
                                if( x * x + y * y < g_fLightSourceSamples * g_fLightSourceSamples )
                                {
                                        g_mLightView = *g_LightCamera.GetViewMatrix();
                                        g_mLightView._41 += x;
                                        g_mLightView._42 += y;

                                        // Render: SHADOW MAP --------------------------------------------------------------------------------
                                        pd3dDevice->SetRenderTarget( 0, g_pShadowMapColorSurface );
                                        pd3dDevice->SetDepthStencilSurface( g_pShadowMapZSurface );
                                        // Clear the render buffers
                                        pd3dDevice->Clear( 0L, NULL, D3DCLEAR_TARGET|D3DCLEAR_ZBUFFER, 0x00000000, 1.0f, 0L );

                                        g_bRenderShadowMap = true;
                                        float fTemp = 0.0f;// set depth bias
                                        pd3dDevice->SetRenderState(D3DRS_SLOPESCALEDEPTHBIAS, *(DWORD*)&g_fBiasSlope);
                                        RenderScene( pd3dDevice, fElapsedTime, &mLightView, &g_mLightProj );
                                        pd3dDevice->SetRenderState(D3DRS_SLOPESCALEDEPTHBIAS, *(DWORD*)&fTemp);
                                        g_bRenderShadowMap = false;
                                        // Render: SHADOW MAP --------------------------------------------------------------------------------

                                        pd3dDevice->SetRenderTarget( 0, g_pShadowWeightSurface );
                                        pd3dDevice->SetDepthStencilSurface( g_pShadowWeightZSurface );
                                        RenderScene( pd3dDevice, fElapsedTime, pmView, pmProj );
                                }
                        }
                }
                
                g_pd3dDevice->SetRenderState(D3DRS_ALPHABLENDENABLE, false);
                // Render: to blend - additional shadow --------------------------------------------------------------------------------
                
                // Render: GUI --------------------------------------------------------------------------------
                g_bRenderGUI = true;
                RenderScene( pd3dDevice, fElapsedTime, &mLightView, &g_mLightProj );
                g_bRenderGUI = false;
                // Render: GUI --------------------------------------------------------------------------------

                // save frame
                if( g_bSaveFrame ){
                
                        TCHAR sz[50];
                        sz[49] = 0;
                        StringCchPrintf( sz, 50, L"images/ShadowWeightOrig_blend.png",   g_iPictureNumber++ );
                        D3DXSaveSurfaceToFile( sz, D3DXIFF_PNG, g_pShadowWeightSurface, NULL,NULL);
                }
                // Render: to blend --------------------------------------------------------------------------------

                // Render: to screen - render a full screene quad --------------------------------------------------------------------------------
                if( pOldDS )
                {
                        pd3dDevice->SetDepthStencilSurface( pOldDS );
                        pOldDS->Release();
                }
                pd3dDevice->SetRenderTarget( 0, pOldRT );
                pd3dDevice->Clear( 0L, NULL, D3DCLEAR_TARGET|D3DCLEAR_ZBUFFER, 0x00000000, 1.0f, 0L );

                UINT cPass;
                if( SUCCEEDED( pd3dDevice->BeginScene() ) )
                {       
                        V( g_pd3dDevice->SetRenderState( D3DRS_CULLMODE, D3DCULL_NONE ) );
                        
                        V( g_pEffect->SetTechnique( "RenderMapScreen" ) );
                        V( g_pEffect->Begin( &cPass, 0 ) );
                        V( g_pEffect->BeginPass( 0 ) );

                        V( g_pEffect->CommitChanges() );
                        
                        V( g_pd3dDevice->SetVertexDeclaration( g_pFullScreenQuadVertexDeclaration ) );
                        V( g_pd3dDevice->SetStreamSource( 0, g_pFullScreenQuadVertexBuffer, 0, sizeof(FullScreenQuadVertexStruct) ) );
                        V( g_pd3dDevice->DrawPrimitive( D3DPT_TRIANGLELIST, 0, 2 ) );

                        V( g_pEffect->EndPass() );
                        V( g_pEffect->End() );

                        V( pd3dDevice->EndScene() );
                }
                // Render: to screen --------------------------------------------------------------------------------
        }
        else
        {
                // Render: SHADOW MAP --------------------------------------------------------------------------------
                pd3dDevice->SetRenderTarget( 0, g_pShadowMapColorSurface );
                pd3dDevice->SetDepthStencilSurface( g_pShadowMapZSurface );
                // Clear the render buffers
                pd3dDevice->Clear( 0L, NULL, D3DCLEAR_TARGET|D3DCLEAR_ZBUFFER, 0x00000000, 1.0f, 0L );

                g_bRenderShadowMap = true;
                float fTemp = 0.0f;// set depth bias
                pd3dDevice->SetRenderState(D3DRS_SLOPESCALEDEPTHBIAS, *(DWORD*)&g_fBiasSlope);
                RenderScene( pd3dDevice, fElapsedTime, &mLightView, &g_mLightProj );
                pd3dDevice->SetRenderState(D3DRS_SLOPESCALEDEPTHBIAS, *(DWORD*)&fTemp);
                g_bRenderShadowMap = false;
                // Render: SHADOW MAP --------------------------------------------------------------------------------

                if( pOldDS )
                {
                        pd3dDevice->SetDepthStencilSurface( pOldDS );
                        pOldDS->Release();
                }
                pd3dDevice->SetRenderTarget( 0, pOldRT );
                pd3dDevice->Clear( 0L, NULL, D3DCLEAR_TARGET|D3DCLEAR_ZBUFFER, 0x00000000, 1.0f, 0L );

                // Render: to screen --------------------------------------------------------------------------------
                const D3DXMATRIX *pmView = g_bCameraPerspective ? g_CamCamera.GetViewMatrix() : &mLightView;
                const D3DXMATRIX *pmProj = g_bCameraPerspective ? g_CamCamera.GetProjMatrix() : &g_mLightProj;
                
                RenderScene( pd3dDevice, fElapsedTime, pmView, pmProj );
                g_bRenderGUI = true;
                RenderScene( pd3dDevice, fElapsedTime, pmView, pmProj );
                g_bRenderGUI = false;
                // Render: to screen --------------------------------------------------------------------------------
        }
        SAFE_RELEASE( pOldRT );
        g_bSaveFrame = false;
}


//--------------------------------------------------------------------------------------
// Render the help and statistics text. This function uses the ID3DXFont interface for 
// efficient text rendering.
//--------------------------------------------------------------------------------------
void RenderText()
{
    // The helper object simply helps keep track of text position, and color
    // and then it calls pFont->DrawText( m_pSprite, strMsg, -1, &rc, DT_NOCLIP, m_clr );
    // If NULL is passed in as the sprite object, then it will work however the 
    // pFont->DrawText() will not be batched together.  Batching calls will improves performance.
    CDXUTTextHelper txtHelper( g_pFont, g_pTextSprite, 15 );

    // Output statistics
    txtHelper.Begin();
    txtHelper.SetInsertionPos( 5, 5 );
    
    // Draw help
    if( g_bShowText && !g_bSaveFrame )
    {
                if( g_bUseTexture )
                {
                        txtHelper.SetForegroundColor( D3DXCOLOR( 1.0f, 1.0f, 1.0f, 1.0f ) );
                } else
                {
                        txtHelper.SetForegroundColor( D3DXCOLOR( 1.0f, 0.0f, 0.0f, 1.0f ) );
                }
                txtHelper.DrawTextLine( DXUTGetFrameStats(true) );
                txtHelper.DrawTextLine( DXUTGetDeviceStats() );



        const D3DSURFACE_DESC* pd3dsdBackBuffer = DXUTGetBackBufferSurfaceDesc();
        txtHelper.SetInsertionPos( 10, pd3dsdBackBuffer->Height-15*8 );
        txtHelper.DrawTextLine( L"Controls:" );

        txtHelper.SetInsertionPos( 15, pd3dsdBackBuffer->Height-15*7 );
        txtHelper.DrawFormattedTextLine(
            L"Rotate camera\n"
                        L"Move camera\n"
            L"Rotate light\n"
                        L"Move light\n"
                        L"Modify shadow generation method\n"
                        L"Save picture\n"
            L"Quit" );
        txtHelper.SetInsertionPos( 265, pd3dsdBackBuffer->Height-15*7 );
        txtHelper.DrawTextLine(
            L"Left drag mouse\n"
                        L"W,S,A,D,Q,E\n"
            L"Right drag mouse\n"
                        L"W,S,A,D,Q,E while holding right mouse\n"
                        L"Forward:M, backward:N, directly:combo box\n"
                        L"Z\n"
            L"ESC" );

                
                WCHAR sz0[50], sz1[50], sz2[50], sz3[50], sz4[50], sz5[50], sz6[50], sz7[50], sz8[50], sz9[50], sz10[50];

                StringCchPrintf( sz0, 50, L"%i",   g_iFov );
                StringCchPrintf( sz1, 50, L"%i",   g_iLightFov );
                StringCchPrintf( sz2, 50, L"%.2f", g_fLightSize );
                StringCchPrintf( sz3, 50, L"%.2f", g_fIntensity );
                StringCchPrintf( sz4, 50, L"%.2f", g_fShadowBias );
                StringCchPrintf( sz5, 50, L"%.2f", g_fBiasSlope );
                StringCchPrintf( sz6, 50, L"%i",   g_iKernelSize );
                StringCchPrintf( sz7, 50, L"%i",   g_iShadowMapSize );
                StringCchPrintf( sz8, 50, L"%i",   g_iFocusingMapSize );
                StringCchPrintf( sz9, 50, L"%i",   (int)( g_fLightSourceSamples * g_fLightSourceSamples ) );
                StringCchPrintf( sz10,50, L"%i",   (int)( 1.0f / g_fRealSamples ) );

                switch( g_iShadowMethod ){

                        case 0:
                        {
                                txtHelper.SetInsertionPos( pd3dsdBackBuffer->Width - 310, 90 );

                                txtHelper.DrawTextLine( L"" );
                                txtHelper.DrawTextLine( L"RealFov" );
                                txtHelper.DrawTextLine( L"LightSize" );
                                txtHelper.DrawTextLine( L"Intensity" );
                                txtHelper.DrawTextLine( L"g_fShadowBias" );
                                txtHelper.DrawTextLine( L"g_fBiasSlope" );
                                txtHelper.DrawTextLine( L"" );     
                                txtHelper.DrawTextLine( L"ShadowMapSize" );
                                txtHelper.DrawTextLine( L"FocusingMapSize" );
                                txtHelper.DrawTextLine( L"LightSSamp" );
                                txtHelper.DrawTextLine( L"LightSRealSamp" );
                
                                txtHelper.SetInsertionPos( pd3dsdBackBuffer->Width - 210, 90 );

                                txtHelper.DrawTextLine( L"" );
                                txtHelper.DrawTextLine( sz1 );
                                txtHelper.DrawTextLine( sz2 );
                                txtHelper.DrawTextLine( sz3 );
                                txtHelper.DrawTextLine( sz4 );
                                txtHelper.DrawTextLine( sz5 );
                                txtHelper.DrawTextLine( L"" );
                                txtHelper.DrawTextLine( sz7 );
                                txtHelper.DrawTextLine( sz8 );
                                txtHelper.DrawTextLine( sz9 );
                                txtHelper.DrawTextLine( sz10 );

                                break;
                        }

                        case 1:
                        {
                                txtHelper.SetInsertionPos( pd3dsdBackBuffer->Width - 310, 90 );

                                txtHelper.DrawTextLine( L"" );
                                txtHelper.DrawTextLine( L"RealFov" );
                                txtHelper.DrawTextLine( L"g_fLightSize" );
                                txtHelper.DrawTextLine( L"sceneScale" );
                                txtHelper.DrawTextLine( L"g_fShadowBias" );
                                txtHelper.DrawTextLine( L"g_fBiasSlope" );
                                txtHelper.DrawTextLine( L"g_iKernelSize" );      
                                txtHelper.DrawTextLine( L"ShadowMapSize" );
                                txtHelper.DrawTextLine( L"FocusingMapSize" );

                                txtHelper.SetInsertionPos( pd3dsdBackBuffer->Width - 210, 90 );

                                txtHelper.DrawTextLine( L"" );
                                txtHelper.DrawTextLine( sz1 );
                                txtHelper.DrawTextLine( sz2 );
                                txtHelper.DrawTextLine( sz3 );
                                txtHelper.DrawTextLine( sz4 );
                                txtHelper.DrawTextLine( sz5 );
                                txtHelper.DrawTextLine( sz6 );
                                txtHelper.DrawTextLine( sz7 );
                                txtHelper.DrawTextLine( sz8 );

                                break;
                        }

                        case 2:
                        {
                                txtHelper.SetInsertionPos( pd3dsdBackBuffer->Width - 310, 90 );

                                txtHelper.DrawTextLine( L"g_iFov" );
                                txtHelper.DrawTextLine( L"RealFov" );
                                txtHelper.DrawTextLine( L"g_fLightSize" );
                                txtHelper.DrawTextLine( L"g_fIntensity" );
                                txtHelper.DrawTextLine( L"g_fShadowBias" );
                                txtHelper.DrawTextLine( L"AddToRR2" );
                                txtHelper.DrawTextLine( L"g_iKernelSize" );      
                                txtHelper.DrawTextLine( L"ShadowMapSize" );
                                txtHelper.DrawTextLine( L"FocusingMapSize" );

                                txtHelper.SetInsertionPos( pd3dsdBackBuffer->Width - 210, 90 );

                                txtHelper.DrawTextLine( sz0 );
                                txtHelper.DrawTextLine( sz1 );
                                txtHelper.DrawTextLine( sz2 );
                                txtHelper.DrawTextLine( sz3 );
                                txtHelper.DrawTextLine( sz4 );
                                txtHelper.DrawTextLine( sz5 );
                                txtHelper.DrawTextLine( sz6 );
                                txtHelper.DrawTextLine( sz7 );
                                txtHelper.DrawTextLine( sz8 );

                                break;
                        }
                }
    }
    else
    {
        txtHelper.SetForegroundColor( D3DXCOLOR( 1.0f, 1.0f, 1.0f, 1.0f ) );
//        txtHelper.DrawTextLine( L"Press F1 for GUI" );
    }
    txtHelper.End();
}



//--------------------------------------------------------------------------------------
// Updates the values of parameter from the slider's value.
//--------------------------------------------------------------------------------------
void UpdateParamFromSlider()
{
        int iSelectedSliderID = g_iSelectedMenuItem + 100;
        int iSelectedValue = g_HUD.GetSlider( iSelectedSliderID )->GetValue();

        switch (g_iSelectedMenuItem)
        {
                case 0: g_iFov            = iSelectedValue;                     break;
                case 1: g_iLightFov       = iSelectedValue;                     break;
                case 2: 
                        
                        if( g_iShadowMethod == 1 )
                                g_fLightSize  = (float)iSelectedValue / 10000.0f;
                        else
                                g_fLightSize  = (float)iSelectedValue / 100.0f;
                        break;
                case 3: 
                        if( g_iShadowMethod == 1 )
                                g_fIntensity  = (float)iSelectedValue / 2.0f;
                        else
                                g_fIntensity  = (float)iSelectedValue / 100.0f;
                        break;
                        
                        g_fIntensity  = (float)iSelectedValue / 100.0f;                 break;
                case 4: 
                                g_fShadowBias = (float)iSelectedValue / 100.0f;         
                        break;

                case 5: g_fBiasSlope  = (float)iSelectedValue / 100.0f;                 break;
                case 6: g_iKernelSize = iSelectedValue;                                                 break;
                case 7: g_iShadowMapSize   = (int)pow( 2.0f, iSelectedValue ); CreateTexture(); break;
                case 8: g_iFocusingMapSize = (int)pow( 2.0f, iSelectedValue ); CreateTexture(); break;
                case 9: 
                        g_fLightSourceSamples = (float)(int)( (float)iSelectedValue / 50.0f );

                        g_fRealSamples = 0;
                        for( float x = 0.5f / g_fLightSourceSamples; x < g_fLightSourceSamples; x++ )
                        {
                                for( float y = 0.5f / g_fLightSourceSamples; y < g_fLightSourceSamples; y++ )
                                {
                                        if( x * x + y * y < g_fLightSourceSamples * g_fLightSourceSamples )
                                        {
                                                g_fRealSamples++;
                                        }
                                }
                        }
                        g_fRealSamples = 1.0f / g_fRealSamples;
                        break;
        }
}


//--------------------------------------------------------------------------------------
// Modify the value of the slider
//--------------------------------------------------------------------------------------
void IncrementSlider( int increment )
{
        int iSelectedSliderID = g_iSelectedMenuItem + 100;
        int iSelectedValue = g_HUD.GetSlider( iSelectedSliderID )->GetValue();

        iSelectedValue += increment;

        if( iSelectedValue < g_iSliderMinValues[g_iSelectedMenuItem] )
                        iSelectedValue = g_iSliderMinValues[g_iSelectedMenuItem];

        if( iSelectedValue > g_iSliderMaxValues[g_iSelectedMenuItem] )
                        iSelectedValue = g_iSliderMaxValues[g_iSelectedMenuItem];

        g_HUD.GetSlider( iSelectedSliderID )->SetValue( iSelectedValue );

        UpdateParamFromSlider();
}


//--------------------------------------------------------------------------------------
// Before handling window messages, DXUT passes incoming windows 
// messages to the application through this callback function. If the application sets 
// *pbNoFurtherProcessing to TRUE, then DXUT will not process this message.
//--------------------------------------------------------------------------------------
LRESULT CALLBACK MsgProc( HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam, bool* pbNoFurtherProcessing, void* pUserContext )
{
    // Always allow dialog resource manager calls to handle global messages
    // so GUI state is updated correctly
    *pbNoFurtherProcessing = g_DialogResourceManager.MsgProc( hWnd, uMsg, wParam, lParam );
    if( *pbNoFurtherProcessing )
        return 0;

    if( g_SettingsDlg.IsActive() )
    {
        g_SettingsDlg.MsgProc( hWnd, uMsg, wParam, lParam );
        return 0;
    }

    *pbNoFurtherProcessing = g_HUD.MsgProc( hWnd, uMsg, wParam, lParam );
    if( *pbNoFurtherProcessing )
        return 0;

    // Pass all windows messages to camera and dialogs so they can respond to user input
        if( WM_KEYDOWN != uMsg || g_bRightMouseDown )
        g_LightCamera.HandleMessages( hWnd, uMsg, wParam, lParam );

    if( WM_KEYDOWN != uMsg || !g_bRightMouseDown )
    {
        if( g_bCameraPerspective )
            g_CamCamera.HandleMessages( hWnd, uMsg, wParam, lParam );
        else
            g_LightCamera.HandleMessages( hWnd, uMsg, wParam, lParam );
    }
    return 0;
}


//--------------------------------------------------------------------------------------
// As a convenience, DXUT inspects the incoming windows messages for
// keystroke messages and decodes the message parameters to pass relevant keyboard
// messages to the application.  The framework does not remove the underlying keystroke 
// messages, which are still passed to the application's MsgProc callback.
//--------------------------------------------------------------------------------------
void CALLBACK KeyboardProc( UINT nChar, bool bKeyDown, bool bAltDown, void* pUserContext )
{
        if( bKeyDown )
    {
        switch( nChar )
        {
                        // Change the selected shadowing method.
                        case 'M':
                        {
                                bool modify = g_iShadowMethod == 1;
                                
                                g_iShadowMethod = ( g_iShadowMethod + 1 ) % g_iNumberOfMethods;
                                
                                g_pTechniquesListComboBox->SetSelectedByIndex( g_iShadowMethod );

                                if( !modify && ( g_iShadowMethod == 1 ) ){
                                        g_fLightSize /= 100.0f;
                                        g_fIntensity *= 50.0f;
                                }
                                if( modify && !( g_iShadowMethod == 1 ) ){
                                        g_fLightSize *= 100.0f;
                                        g_fIntensity /= 50.0f;
                                }
                                break;
                        }
                        case 'N':
                        {
                                bool modify = g_iShadowMethod == 1;
                                
                                g_iShadowMethod = ( g_iShadowMethod - 1 );
                                if( g_iShadowMethod < 0 )
                                {
                                        g_iShadowMethod += g_iNumberOfMethods;
                                }

                                g_pTechniquesListComboBox->SetSelectedByIndex( g_iShadowMethod );
                                if( !modify && ( g_iShadowMethod == 1 ) ){
                                        g_fLightSize /= 100.0f;
                                        g_fIntensity *= 50.0f;
                                }
                                if( modify && !( g_iShadowMethod == 1 ) ){
                                        g_fLightSize *= 100.0f;
                                        g_fIntensity /= 50.0f;
                                }
                                break;
                        }
                        case 'Z':
                        {
                                g_bSaveFrame = true;
                                break;
                        }
                }
        }
}

//--------------------------------------------------------------------------------------
// Mouse handler
//--------------------------------------------------------------------------------------
void CALLBACK MouseProc( bool bLeftButtonDown, bool bRightButtonDown, bool bMiddleButtonDown, bool bSideButton1Down, bool bSideButton2Down, int nMouseWheelDelta, int xPos, int yPos, void* pUserContext )
{
    g_bRightMouseDown = bRightButtonDown;
}


//--------------------------------------------------------------------------------------
// Handles the GUI events
//--------------------------------------------------------------------------------------
void CALLBACK OnGUIEvent( UINT nEvent, int nControlID, CDXUTControl* pControl, void* pUserContext )
{
        if( nControlID >= HUNDRED && nControlID <= LAST_SLIDER )
        {
                g_iSelectedMenuItem = nControlID - HUNDRED;
                UpdateParamFromSlider();
        }


    switch( nControlID )
    {
        case IDC_TOGGLEFULLSCREEN: DXUTToggleFullScreen(); break;
        case IDC_TOGGLEREF:        DXUTToggleREF(); break;
        case IDC_CHANGEDEVICE:     g_SettingsDlg.SetActive( !g_SettingsDlg.IsActive() ); break;
        case IDC_CHECKBOX:
        {
            CDXUTCheckBox *pCheck = (CDXUTCheckBox *)pControl;
            g_bShowText = pCheck->GetChecked();
                        g_pTechniquesListComboBox->SetVisible( g_bShowText );

                        const D3DSURFACE_DESC* pd3dsdBackBuffer = DXUTGetBackBufferSurfaceDesc();
                        if( !g_bShowText )
                        {
                                g_HUD.SetLocation( pd3dsdBackBuffer->Width-170, -500 );
                        } else
                        {
                                g_HUD.SetLocation( pd3dsdBackBuffer->Width-170, 0 );
                        }
            break;
        }
        case IDC_LIGHTPERSPECTIVE:
        {
            CDXUTCheckBox *pCheck = (CDXUTCheckBox *)pControl;
            g_bCameraPerspective = !pCheck->GetChecked();
            if( g_bCameraPerspective )
            {
                g_CamCamera.SetRotateButtons( true, false, false );
                g_LightCamera.SetRotateButtons( false, false, true );
            } else
            {
                g_CamCamera.SetRotateButtons( false, false, false );
                g_LightCamera.SetRotateButtons( true, false, true );
            }

            break;
        }

                case IDC_PAUSE_CHECKBOX:
                {
                        CDXUTCheckBox *pCheck = (CDXUTCheckBox *)pControl;
            g_bPause = pCheck->GetChecked();
                        break;
                }

                case IDC_USE_TEXTURE_CHECKBOX:
                {
                        CDXUTCheckBox *pCheck = (CDXUTCheckBox *)pControl;
                        g_bUseTexture = pCheck->GetChecked();
                        break;
                }

                case IDC_METHOD_COMBO_BOX:
                {
                        bool modify = g_iShadowMethod == 1;

                        g_iShadowMethod = g_pTechniquesListComboBox->FindItem( g_pTechniquesListComboBox->GetSelectedItem()->strText );
                        if( !modify && ( g_iShadowMethod == 1 ) ){
                                        g_fLightSize /= 100.0f;
                                        g_fIntensity *= 50.0f;
                                }
                        if( modify && !( g_iShadowMethod == 1 ) ){
                                        g_fLightSize *= 100.0f;
                                        g_fIntensity /= 50.0f;
                        }
                        break;
                }

                case IDC_USE_FOCUSING_CHECKBOX:
                {
                        CDXUTCheckBox *pCheck = (CDXUTCheckBox *)pControl;
            g_bUseFocusing = pCheck->GetChecked();
                        break;
                }
    }
}


//--------------------------------------------------------------------------------------
// This callback function will be called immediately after the Direct3D device has 
// entered a lost state and before IDirect3DDevice9::Reset is called. Resources created
// in the OnResetDevice callback should be released here, which generally includes all 
// D3DPOOL_DEFAULT resources. See the "Lost Devices" section of the documentation for 
// information about lost devices.
//--------------------------------------------------------------------------------------
void CALLBACK OnLostDevice( void* pUserContext )
{
    g_DialogResourceManager.OnLostDevice();
    g_SettingsDlg.OnLostDevice();
    if( g_pFont )
        g_pFont->OnLostDevice();
    if( g_pFontSmall )
        g_pFontSmall->OnLostDevice();
    if( g_pEffect )
        g_pEffect->OnLostDevice();
    SAFE_RELEASE(g_pTextSprite);

    SAFE_RELEASE( g_pShadowMapColorTexture );
        SAFE_RELEASE( g_pShadowMapColorSurface );
        SAFE_RELEASE( g_pShadowWeightTexture );
        SAFE_RELEASE( g_pShadowWeightSurface );
        SAFE_RELEASE( g_pShadowMapZTexture );
        SAFE_RELEASE( g_pShadowMapZSurface );
        SAFE_RELEASE( g_pShadowWeightZTexture );
        SAFE_RELEASE( g_pShadowWeightZSurface );
    SAFE_RELEASE( g_pFocusingMapColorTexture );
        SAFE_RELEASE( g_pFocusingMapColorSurface );
        SAFE_RELEASE( g_pDefaultTexture );
        SAFE_RELEASE( g_pMemoryMappedTexture );
        SAFE_RELEASE( g_pMemoryMappedTextureSurface );

    for( int i = 0; i < NUM_OBJ; ++i )
        g_Obj[i].m_Mesh.InvalidateDeviceObjects();
    g_LightMesh.InvalidateDeviceObjects();

        SAFE_RELEASE( g_pFullScreenQuadVertexDeclaration );
        SAFE_RELEASE( g_pFullScreenQuadVertexBuffer );
}


//--------------------------------------------------------------------------------------
// This callback function will be called immediately after the Direct3D device has 
// been destroyed, which generally happens as a result of application termination or 
// windowed/full screen toggles. Resources created in the OnCreateDevice callback 
// should be released here, which generally includes all D3DPOOL_MANAGED resources. 
//--------------------------------------------------------------------------------------
void CALLBACK OnDestroyDevice( void* pUserContext )
{
    g_DialogResourceManager.OnDestroyDevice();
    g_SettingsDlg.OnDestroyDevice();
    SAFE_RELEASE( g_pEffect );
    SAFE_RELEASE( g_pFont );
    SAFE_RELEASE( g_pFontSmall );
    SAFE_RELEASE( g_pVertDecl );

    SAFE_RELEASE( g_pEffect );

    for( int i = 0; i < NUM_OBJ; ++i )
        g_Obj[i].m_Mesh.Destroy();
    g_LightMesh.Destroy();
}