#define DXUTTRACE                  (__noop)
#endif


//--------------------------------------------------------------------------------------
// Direct3D9 dynamic linking support -- calls top-level D3D9 APIs with graceful
// failure if APIs are not present.
//--------------------------------------------------------------------------------------

IDirect3D9 * WINAPI DXUT_Dynamic_Direct3DCreate9(UINT SDKVersion);
int WINAPI DXUT_Dynamic_D3DPERF_BeginEvent( D3DCOLOR col, LPCWSTR wszName );
int WINAPI DXUT_Dynamic_D3DPERF_EndEvent( void );
void WINAPI DXUT_Dynamic_D3DPERF_SetMarker( D3DCOLOR col, LPCWSTR wszName );
void WINAPI DXUT_Dynamic_D3DPERF_SetRegion( D3DCOLOR col, LPCWSTR wszName );
BOOL WINAPI DXUT_Dynamic_D3DPERF_QueryRepeatFrame( void );
void WINAPI DXUT_Dynamic_D3DPERF_SetOptions( DWORD dwOptions );
DWORD WINAPI DXUT_Dynamic_D3DPERF_GetStatus( void );


//--------------------------------------------------------------------------------------
// Profiling/instrumentation support
//--------------------------------------------------------------------------------------

//--------------------------------------------------------------------------------------
// Some D3DPERF APIs take a color that can be used when displaying user events in 
// performance analysis tools.  The following constants are provided for your 
// convenience, but you can use any colors you like.
//--------------------------------------------------------------------------------------
const D3DCOLOR DXUT_PERFEVENTCOLOR  = D3DCOLOR_XRGB(200,100,100);
const D3DCOLOR DXUT_PERFEVENTCOLOR2 = D3DCOLOR_XRGB(100,200,100);
const D3DCOLOR DXUT_PERFEVENTCOLOR3 = D3DCOLOR_XRGB(100,100,200);

//--------------------------------------------------------------------------------------
// The following macros provide a convenient way for your code to call the D3DPERF 
// functions only when PROFILE is defined.  If PROFILE is not defined (as for the final 
// release version of a program), these macros evaluate to nothing, so no detailed event
// information is embedded in your shipping program.  It is recommended that you create
// and use three build configurations for your projects:
//     Debug (nonoptimized code, asserts active, PROFILE defined to assist debugging)
//     Profile (optimized code, asserts disabled, PROFILE defined to assist optimization)
//     Release (optimized code, asserts disabled, PROFILE not defined)
//--------------------------------------------------------------------------------------
#ifdef PROFILE
// PROFILE is defined, so these macros call the D3DPERF functions
#define DXUT_BeginPerfEvent( color, pstrMessage )   DXUT_Dynamic_D3DPERF_BeginEvent( color, pstrMessage )
#define DXUT_EndPerfEvent()                         DXUT_Dynamic_D3DPERF_EndEvent()
#define DXUT_SetPerfMarker( color, pstrMessage )    DXUT_Dynamic_D3DPERF_SetMarker( color, pstrMessage )
#else
// PROFILE is not defined, so these macros do nothing
#define DXUT_BeginPerfEvent( color, pstrMessage )   (__noop)
#define DXUT_EndPerfEvent()                         (__noop)
#define DXUT_SetPerfMarker( color, pstrMessage )    (__noop)
#endif

//--------------------------------------------------------------------------------------
// CDXUTPerfEventGenerator is a helper class that makes it easy to attach begin and end
// events to a block of code.  Simply define a CDXUTPerfEventGenerator variable anywhere 
// in a block of code, and the class's constructor will call DXUT_BeginPerfEvent when 
// the block of code begins, and the class's destructor will call DXUT_EndPerfEvent when 
// the block ends.
//--------------------------------------------------------------------------------------
class CDXUTPerfEventGenerator
{
public:
    CDXUTPerfEventGenerator( D3DCOLOR color, LPCWSTR pstrMessage ) { DXUT_BeginPerfEvent( color, pstrMessage ); }
    ~CDXUTPerfEventGenerator( void ) { DXUT_EndPerfEvent(); }
};


//--------------------------------------------------------------------------------------
// Multimon handling to support OSes with or without multimon API support.  
// Purposely avoiding the use of multimon.h so DXUT.lib doesn't require 
// COMPILE_MULTIMON_STUBS and cause complication with MFC or other users of multimon.h
//--------------------------------------------------------------------------------------
#ifndef MONITOR_DEFAULTTOPRIMARY
    #define MONITORINFOF_PRIMARY        0x00000001
    #define MONITOR_DEFAULTTONULL       0x00000000
    #define MONITOR_DEFAULTTOPRIMARY    0x00000001
    #define MONITOR_DEFAULTTONEAREST    0x00000002
    typedef struct tagMONITORINFO
    {
        DWORD   cbSize;
        RECT    rcMonitor;
        RECT    rcWork;
        DWORD   dwFlags;
    } MONITORINFO, *LPMONITORINFO;
    typedef struct tagMONITORINFOEXW : public tagMONITORINFO
    {
        WCHAR       szDevice[CCHDEVICENAME];
    } MONITORINFOEXW, *LPMONITORINFOEXW;
    typedef MONITORINFOEXW MONITORINFOEX;
    typedef LPMONITORINFOEXW LPMONITORINFOEX;
#endif

HMONITOR DXUTMonitorFromWindow( HWND hWnd, DWORD dwFlags );
BOOL     DXUTGetMonitorInfo( HMONITOR hMonitor, LPMONITORINFO lpMonitorInfo );
void     DXUTGetDesktopResolution( UINT AdapterOrdinal, UINT* pWidth, UINT* pHeight );


//--------------------------------------------------------------------------------------
// Implementation of CGrowableArray
//--------------------------------------------------------------------------------------

// This version doesn't call ctor or dtor.
template< typename TYPE >
HRESULT CGrowableArray<TYPE>::SetSizeInternal( int nNewMaxSize )
{
    if( nNewMaxSize < 0 )
    {
        assert( false );
        return E_INVALIDARG;
    }

    if( nNewMaxSize == 0 )
    {
        // Shrink to 0 size & cleanup
        if( m_pData )
        {
            free( m_pData );
            m_pData = NULL;
        }

        m_nMaxSize = 0;
        m_nSize = 0;
    }
    else if( m_pData == NULL || nNewMaxSize > m_nMaxSize )
    {
        // Grow array
        int nGrowBy = ( m_nMaxSize == 0 ) ? 16 : m_nMaxSize;
        nNewMaxSize = __max( nNewMaxSize, m_nMaxSize + nGrowBy );

        TYPE* pDataNew = (TYPE*) realloc( m_pData, nNewMaxSize * sizeof(TYPE) );
        if( pDataNew == NULL )
            return E_OUTOFMEMORY;

        m_pData = pDataNew;
        m_nMaxSize = nNewMaxSize;
    }

    return S_OK;
}


//--------------------------------------------------------------------------------------
template< typename TYPE >
HRESULT CGrowableArray<TYPE>::SetSize( int nNewMaxSize )
{
    int nOldSize = m_nSize;

    if( nOldSize > nNewMaxSize )
    {
        // Removing elements. Call dtor.

        for( int i = nNewMaxSize; i < nOldSize; ++i )
            m_pData[i].~TYPE();
    }

    // Adjust buffer.  Note that there's no need to check for error
    // since if it happens, nOldSize == nNewMaxSize will be true.)
    HRESULT hr = SetSizeInternal( nNewMaxSize );

    if( nOldSize < nNewMaxSize )
    {
        // Adding elements. Call ctor.

        for( int i = nOldSize; i < nNewMaxSize; ++i )
            ::new (&m_pData[i]) TYPE;
    }

    return hr;
}


//--------------------------------------------------------------------------------------
template< typename TYPE >
HRESULT CGrowableArray<TYPE>::Add( const TYPE& value )
{
    HRESULT hr;
    if( FAILED( hr = SetSizeInternal( m_nSize + 1 ) ) )
        return hr;

    // Construct the new element
    ::new (&m_pData[m_nSize]) TYPE;

    // Assign
    m_pData[m_nSize] = value;
    ++m_nSize;

    return S_OK;
}


//--------------------------------------------------------------------------------------
template< typename TYPE >
HRESULT CGrowableArray<TYPE>::Insert( int nIndex, const TYPE& value )
{
    HRESULT hr;

    // Validate index
    if( nIndex < 0 || 
        nIndex > m_nSize )
    {
        assert( false );
        return E_INVALIDARG;
    }

    // Prepare the buffer
    if( FAILED( hr = SetSizeInternal( m_nSize + 1 ) ) )
        return hr;

    // Shift the array
    MoveMemory( &m_pData[nIndex+1], &m_pData[nIndex], sizeof(TYPE) * (m_nSize - nIndex) );

    // Construct the new element
    ::new (&m_pData[nIndex]) TYPE;

    // Set the value and increase the size
    m_pData[nIndex] = value;
    ++m_nSize;

    return S_OK;
}


//--------------------------------------------------------------------------------------
template< typename TYPE >
HRESULT CGrowableArray<TYPE>::SetAt( int nIndex, const TYPE& value )
{
    // Validate arguments
    if( nIndex < 0 ||
        nIndex >= m_nSize )
    {
        assert( false );
        return E_INVALIDARG;
    }

    m_pData[nIndex] = value;
    return S_OK;
}


//--------------------------------------------------------------------------------------
// Searches for the specified value and returns the index of the first occurrence
// within the section of the data array that extends from iStart and contains the 
// specified number of elements. Returns -1 if value is not found within the given 
// section.
//--------------------------------------------------------------------------------------
template< typename TYPE >
int CGrowableArray<TYPE>::IndexOf( const TYPE& value, int iStart, int nNumElements )
{
    // Validate arguments
    if( iStart < 0 || 
        iStart >= m_nSize ||
        nNumElements < 0 ||
        iStart + nNumElements > m_nSize )
    {
        assert( false );
        return -1;
    }

    // Search
    for( int i = iStart; i < (iStart + nNumElements); i++ )
    {
        if( value == m_pData[i] )
            return i;
    }

    // Not found
    return -1;
}


//--------------------------------------------------------------------------------------
// Searches for the specified value and returns the index of the last occurrence
// within the section of the data array that contains the specified number of elements
// and ends at iEnd. Returns -1 if value is not found within the given section.
//--------------------------------------------------------------------------------------
template< typename TYPE >
int CGrowableArray<TYPE>::LastIndexOf( const TYPE& value, int iEnd, int nNumElements )
{
    // Validate arguments
    if( iEnd < 0 || 
        iEnd >= m_nSize ||
        nNumElements < 0 ||
        iEnd - nNumElements < 0 )
    {
        assert( false );
        return -1;
    }

    // Search
    for( int i = iEnd; i > (iEnd - nNumElements); i-- )
    {
        if( value == m_pData[i] )
            return i;
    }

    // Not found
    return -1;
}



//--------------------------------------------------------------------------------------
template< typename TYPE >
HRESULT CGrowableArray<TYPE>::Remove( int nIndex )
{
    if( nIndex < 0 || 
        nIndex >= m_nSize )
    {
        assert( false );
        return E_INVALIDARG;
    }

    // Destruct the element to be removed
    m_pData[nIndex].~TYPE();

    // Compact the array and decrease the size
    MoveMemory( &m_pData[nIndex], &m_pData[nIndex+1], sizeof(TYPE) * (m_nSize - (nIndex+1)) );
    --m_nSize;

    return S_OK;
}


//--------------------------------------------------------------------------------------
// Creates a REF or NULLREF device and returns that device.  The caller should call
// Release() when done with the device.
//--------------------------------------------------------------------------------------
IDirect3DDevice9* DXUTCreateRefDevice( HWND hWnd, bool bNullRef = true );


#endif