CWE-ou-minkata/MOULOpenSourceClientPlugin/Plasma20/Sources/Plasma/PubUtilLib/plGImage/plDynSurfaceWriter.cpp

/*==LICENSE==*

CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011  Cyan Worlds, Inc.

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program.  If not, see <http://www.gnu.org/licenses/>.

You can contact Cyan Worlds, Inc. by email legal@cyan.com
 or by snail mail at:
      Cyan Worlds, Inc.
      14617 N Newport Hwy
      Mead, WA   99021

*==LICENSE==*/
///////////////////////////////////////////////////////////////////////////////
//																			 //
//	plDynSurfaceWriter Class Header											 //
//	Abstract class wrapping around Windows GDI functionality for writing to	 //
//	a generic RGBA surface. Allows us to create one writer per DTMap or a	 //
//	single shared writer to conserve OS resources on 98/ME.					 //
//																			 //
//	Cyan, Inc.																 //
//																			 //
//// Version History //////////////////////////////////////////////////////////
//																			 //
//	10.28.2002 mcn - Created.												 //
//																			 //
///////////////////////////////////////////////////////////////////////////////

#include "hsTypes.h"
#include "hsWindows.h"
#include "plDynSurfaceWriter.h"

#include "plDynamicTextMap.h"
#include "hsExceptions.h"
#include "hsUtils.h"
#include "hsMatrix44.h"
#include "../plMessage/plDynamicTextMsg.h"
#include "../pnKeyedObject/plKey.h"
#include "plProfile.h"
#include "../plStatusLog/plStatusLog.h"
#include "plWinFontCache.h"


//// plWinSurface Helper Functions ////////////////////////////////////////////

#if HS_BUILD_FOR_WIN32

static UInt32		sNumDCsAllocated;
static UInt32		sNumBitmapsAllocated;

plDynSurfaceWriter::plWinSurface::plWinSurface()
{
	fDC = nil;
	fBitmap = nil;
	fFont = nil;
	fBits = nil;
	fTextColor = RGB( 255, 255, 255 );
	fWidth = fHeight = 0;

	fSaveNum = 0;
	fFontFace = nil;
	fFontSize = 0;
	fFontFlags = 0;
	fFontAntiAliasRGB = false;
	fFontBlockedRGB = false;
}

plDynSurfaceWriter::plWinSurface::~plWinSurface()
{
	Release();
}

void	plDynSurfaceWriter::plWinSurface::Allocate( UInt16 w, UInt16 h )
{
	int			i;
	BITMAPINFO	*bmi;


	Release();

	fWidth = w;
	fHeight = h;

	/// Initialize a bitmap info struct to describe our surface
	if( IBitsPerPixel() == 8 )
		bmi = (BITMAPINFO *)( TRACKED_NEW UInt8[ sizeof( BITMAPINFOHEADER ) + sizeof( RGBQUAD ) * 256 ] );
	else
		bmi = TRACKED_NEW BITMAPINFO;

	memset( &bmi->bmiHeader, 0, sizeof( BITMAPINFOHEADER ) );
	bmi->bmiHeader.biSize = sizeof( BITMAPINFOHEADER );
	bmi->bmiHeader.biWidth = (int)fWidth;
	bmi->bmiHeader.biHeight = -(int)fHeight;
	bmi->bmiHeader.biPlanes = 1;
	bmi->bmiHeader.biCompression = BI_RGB;
	bmi->bmiHeader.biBitCount = IBitsPerPixel();
	if( IBitsPerPixel() == 8 )
	{
		// Set up map for grayscale bitmap
		for( i = 0; i < 256; i++ )
		{
			bmi->bmiColors[ i ].rgbRed = i;
			bmi->bmiColors[ i ].rgbGreen = i;
			bmi->bmiColors[ i ].rgbBlue = i;
			bmi->bmiColors[ i ].rgbReserved = i;
		}
	}
	
	/// Create a screen-compatible DC
	fDC = CreateCompatibleDC( nil );
	if( fDC == nil )
	{
		char msg[ 256 ];
		FormatMessage( FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, nil, GetLastError(), MAKELANGID( LANG_NEUTRAL, SUBLANG_DEFAULT ), msg, sizeof( msg ), nil );
		char *ret = strrchr( msg, '\n' );
		if( ret != nil )
			*ret = 0;

		plStatusLog::AddLineS( "pipeline.log", 0xffff0000, "Unable to allocate DC for dynamic text map (%s, %d DCs allocated already)", msg, sNumDCsAllocated );
		if (IBitsPerPixel() == 8 )
			delete [] bmi;
		else
			delete bmi;
		return;
	}
	sNumDCsAllocated++;

	/// Create a bitmap using the DC and the bitmapInfo struct we filled out
	fBitmap = CreateDIBSection( fDC, bmi, DIB_RGB_COLORS, (void **)&fBits, nil, 0 );
	if( fBitmap == nil )
	{
		char msg[ 256 ];
		FormatMessage( FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, nil, GetLastError(), MAKELANGID( LANG_NEUTRAL, SUBLANG_DEFAULT ), msg, sizeof( msg ), nil );
		char *ret = strrchr( msg, '\n' );
		if( ret != nil )
			*ret = 0;

		plStatusLog::AddLineS( "pipeline.log", 0xffff0000, "Unable to allocate RGB DIB section for dynamic text map (%s, %d bitmaps allocated already)", msg, sNumBitmapsAllocated );
		if (IBitsPerPixel() == 8 )
			delete [] bmi;
		else
			delete bmi;
		return;
	}
	sNumBitmapsAllocated++;

	/// Set up some basic props
	SetMapMode( fDC, MM_TEXT );
	SetBkMode( fDC, TRANSPARENT );
	SetTextAlign( fDC, TA_TOP | TA_LEFT );

	fSaveNum = SaveDC( fDC );
	
	SelectObject( fDC, fBitmap );

	if (IBitsPerPixel() == 8 )
		delete [] bmi;
	else
		delete bmi;
}

void	plDynSurfaceWriter::plWinSurface::Release( void )
{
	if( fBitmap != nil )
		sNumBitmapsAllocated--;
	if( fDC != nil )
		sNumDCsAllocated--;

	if( fSaveNum != 0 )
		RestoreDC( fDC, fSaveNum );
	fSaveNum = 0;

	DeleteObject( fBitmap );
	DeleteDC( fDC );

	fDC = nil;
	fBitmap = nil;
	fFont = nil;
	fBits = nil;
	fWidth = fHeight = 0;

	delete [] fFontFace;
	fFontFace = nil;
	fFontSize = 0;
	fFontFlags = 0;
	fFontAntiAliasRGB = false;
	fFontBlockedRGB = false;
}

hsBool	plDynSurfaceWriter::plWinSurface::WillFit( UInt16 w, UInt16 h )
{
	if( fWidth >= w && fHeight >= h )
		return true;
	return false;
}

static int		SafeStrCmp( const char *str1, const char *str2 )
{
	if( str1 == nil && str2 == nil )
		return -1;
	if( str1 != nil && str2 != nil )
		return strcmp( str1, str2 );
	return -1;
}

hsBool	plDynSurfaceWriter::plWinSurface::FontMatches( const char *face, UInt16 size, UInt8 flags, hsBool aaRGB )
{
	if( SafeStrCmp( face, fFontFace ) == 0 && fFontSize == size && 
		fFontFlags == flags && fFontAntiAliasRGB == aaRGB )
		return true;
	
	return false;
}

void	plDynSurfaceWriter::plWinSurface::SetFont( const char *face, UInt16 size, UInt8 flags, hsBool aaRGB )
{
	delete [] fFontFace;
	fFontFace = ( face != nil ) ? hsStrcpy( face ) : nil;
	fFontSize = size;
	fFontFlags = flags;
	fFontAntiAliasRGB = aaRGB;

	bool hadAFont = false;
	if( fFont != nil )
	{
		hadAFont = true;
		plWinFontCache::GetInstance().FreeFont( fFont );	
		fFont = nil;
	}

	if( face == nil )
		return;

	bool	bold = ( fFontFlags & plDynSurfaceWriter::kFontBold ) ? true : false;
	bool	italic = ( fFontFlags & plDynSurfaceWriter::kFontItalic ) ? true : false;

	int nHeight = -MulDiv( size, GetDeviceCaps( fDC, LOGPIXELSY ), 72 );
	fFont = plWinFontCache::GetInstance().GetMeAFont( face, nHeight, bold ? FW_BOLD : FW_NORMAL, italic, 
														fFontAntiAliasRGB ? ANTIALIASED_QUALITY : DEFAULT_QUALITY );
	if( fFont == nil && fFontAntiAliasRGB )
	{
		static bool warnedCantAntiAlias = false;

		// Creation of font failed; could be that we can't do anti-aliasing? Try not doing it...
		if( !warnedCantAntiAlias )
		{
			plStatusLog::AddLineS( "pipeline.log", "WARNING: Cannot allocate anti-aliased font. Falling back to non-anti-aliased. This will be the only warning" );
			warnedCantAntiAlias = true;
		}

		fFont = plWinFontCache::GetInstance().GetMeAFont( face, nHeight, bold ? FW_BOLD : FW_NORMAL, italic, 
															fFontAntiAliasRGB ? ANTIALIASED_QUALITY : DEFAULT_QUALITY );
	}

	if( fFont == nil )
	{
		hsAssert( false, "Cannot create Windows font for plDynSurfaceWriter" );
		plStatusLog::AddLineS( "pipeline.log", "ERROR: Cannot allocate font for RGB surface! (face: %s, size: %d %s %s)", face, nHeight, bold ? "bold" : "", italic ? "italic" : "" );

		delete [] fFontFace;
		fFontFace = nil;
		fFontSize = 0;
		return;
	}

	if( SelectObject( fDC, fFont ) == nil && hadAFont )
	{
		char msg[ 256 ];
		FormatMessage( FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, nil, GetLastError(), MAKELANGID( LANG_NEUTRAL, SUBLANG_DEFAULT ), msg, sizeof( msg ), nil );
		char *ret = strrchr( msg, '\n' );
		if( ret != nil )
			*ret = 0;

		plStatusLog::AddLineS( "pipeline.log", 0xffff0000, "SelectObject() FAILED (%s)", msg );
	}

}

#endif // BUILD_FOR_WIN32

//// StupidStatic /////////////////////////////////////////////////////////////

hsBool	plDynSurfaceWriter::fForceSharedSurfaces = false;
hsBool	plDynSurfaceWriter::fOSDetected = false;
hsBool	plDynSurfaceWriter::fOSCanShareSurfaces = false;

hsBool	plDynSurfaceWriter::CanHandleLotsOfThem( void )
{
	if( fOSDetected )
		return fOSCanShareSurfaces;

	fOSDetected = true;

#if HS_BUILD_FOR_WIN32
	OSVERSIONINFO	versionInfo;
	memset( &versionInfo, 0, sizeof( versionInfo ) );
	versionInfo.dwOSVersionInfoSize = sizeof( versionInfo );

	if( GetVersionEx( &versionInfo ) )
	{
		plStatusLog::AddLineS( "pipeline.log", "OS version detection results:" );
		plStatusLog::AddLineS( "pipeline.log", "   Version: %d.%d", versionInfo.dwMajorVersion, versionInfo.dwMinorVersion );
		plStatusLog::AddLineS( "pipeline.log", "   Build #: %d", versionInfo.dwBuildNumber );
		plStatusLog::AddLineS( "pipeline.log", "   Platform ID: %d", versionInfo.dwPlatformId );

		if( versionInfo.dwPlatformId == VER_PLATFORM_WIN32_NT )
		{
			if( fForceSharedSurfaces )
			{
				plStatusLog::AddLineS( "pipeline.log", "Detected NT-based platform, but sharing surfaces due to override" );
				fOSCanShareSurfaces = false;
			}
			else
			{
				plStatusLog::AddLineS( "pipeline.log", "Detected NT-based platform, allowing separate surfaces" );
				fOSCanShareSurfaces = true;
			}
		}
		else
		{
			plStatusLog::AddLineS( "pipeline.log", "Detected non-NT-based platform: sharing surfaces" );
			fOSCanShareSurfaces = false;
		}
	}
	else
	{
		plStatusLog::AddLineS( "pipeline.log", "OS version detection failed" );
		fOSCanShareSurfaces = false;
	}

#endif
	return fOSCanShareSurfaces;
}

//// Constructor & Destructor /////////////////////////////////////////////////

plDynSurfaceWriter::plDynSurfaceWriter()
{
	IInit();
}

plDynSurfaceWriter::~plDynSurfaceWriter()
{
	Reset();
}

plDynSurfaceWriter::plDynSurfaceWriter( plDynamicTextMap *target, UInt32 flags )
{
	IInit();
	fFlags = flags;
	SwitchTarget( target );
}

void	plDynSurfaceWriter::IInit( void )
{
	fCurrTarget = 0;
	fJustify = kLeftJustify;
	fFlags = 0;
	fFlushed = true;
	fFontFace = nil;
	fFontSize = 0;
	fFontBlockedRGB = false;
}

//// Reset ////////////////////////////////////////////////////////////////////

void	plDynSurfaceWriter::Reset( void )
{
	fRGBSurface.Release();
	fAlphaSurface.Release();
	fCurrTarget = nil;
	fFlushed = true;

	delete [] fFontFace;
	fFontFace = nil;
	fFontSize = 0;
}


///////////////////////////////////////////////////////////////////////////////
//// Target Switching /////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////

//// FlushToTarget ////////////////////////////////////////////////////////////
//	Flushes all ops to the target.

void	plDynSurfaceWriter::FlushToTarget( void )
{
	int		x, y;


	if( fCurrTarget != nil && !fFlushed )
	{
#if HS_BUILD_FOR_WIN32
		// Flush the GDI so we can grab the bits
		GdiFlush();

		UInt32 *destBits = (UInt32 *)fCurrTarget->GetImage();

		// Are we merging in the alpha bits?
		if( fFlags & kSupportAlpha )
		{
			// Yup, munge 'em
			UInt32	*srcRGBBits = fRGBSurface.GetBits();
			UInt8	*srcAlphaBits = fAlphaSurface.GetBits();
			UInt32	destWidth = fCurrTarget->GetWidth();

			for( y = 0; y < fCurrTarget->GetHeight(); y++ )
			{
				for( x = 0; x < destWidth; x++ )
					destBits[ x ] = ( srcRGBBits[ x ] & 0x00ffffff ) | ( (UInt32)srcAlphaBits[ x ] << 24 );

				destBits += destWidth;
				srcRGBBits += fRGBSurface.fWidth;
				srcAlphaBits += fAlphaSurface.fWidth;
			}
		}
		else
		{
			// Nope, just a 24-bit copy and set alphas to ff
			UInt32	*srcBits = fRGBSurface.GetBits();
			UInt32	destWidth = fCurrTarget->GetWidth();

			for( y = 0; y < fCurrTarget->GetHeight(); y++ )
			{
				memcpy( destBits, srcBits, destWidth * sizeof( UInt32 ) );

				// Fill in 0xff
				for( x = 0; x < destWidth; x++ )
					destBits[ x ] |= 0xff000000;

				destBits += destWidth;
				srcBits += fRGBSurface.fWidth;
			}
		}
#endif
	}
	fFlushed = true;
}

//// SwitchTarget /////////////////////////////////////////////////////////////
//	Switches targets. Will flush to old target before switching. Also, if 
//	kDiscard isn't specified, will copy contents of new target to working 
//	surface.

void	plDynSurfaceWriter::SwitchTarget( plDynamicTextMap *target )
{
	if( target == fCurrTarget )
		return;

	if( !fFlushed )
		FlushToTarget();

	fCurrTarget = target;
	fFlushed = true;		// Will force a copy next IEnsureSurfaceUpdated()

	// Make sure our surfaces fit
	bool hadToAllocate = false;
	if( target != nil )
	{
		if( !fRGBSurface.WillFit( (UInt16)(target->GetWidth()), (UInt16)(target->GetHeight()) )	)
		{
			fRGBSurface.Allocate( (UInt16)(target->GetWidth()), (UInt16)(target->GetHeight()) );
			hadToAllocate = true;
		}

		if( fFlags & kSupportAlpha )
		{
			if( !fAlphaSurface.WillFit( (UInt16)(target->GetWidth()), (UInt16)(target->GetHeight()) ) )	
			{
				fAlphaSurface.Allocate( (UInt16)(target->GetWidth()), (UInt16)(target->GetHeight()) );
				hadToAllocate = true;
			}
		}
	}
	else
	{
		fRGBSurface.Release();
		fAlphaSurface.Release();
		hadToAllocate = true;
	}

	if( hadToAllocate )
	{
		delete [] fFontFace;
		fFontFace = nil;
		fFontSize = 0;
		fFontFlags = 0;
	}
}

//// IEnsureSurfaceUpdated ////////////////////////////////////////////////////
//	Makes sure our surfaces are ready to write to.

void	plDynSurfaceWriter::IEnsureSurfaceUpdated( void )
{
	UInt32	x, y;


	// If we're flushed, then we haven't drawn since the last flush,
	// which means we want to copy from our target before we start drawing.
	// If we've already drawn, then we won't be flushed and we don't want
	// to be copying over what we've already drawn
	if( fCurrTarget != nil && fFlushed )
	{
		UInt32 *srcBits = (UInt32 *)fCurrTarget->GetImage();

		// Are we merging in the alpha bits?
		if( fFlags & kSupportAlpha )
		{
			// Yup, de-munge 'em
			UInt32	*destRGBBits = fRGBSurface.GetBits();
			UInt8	*destAlphaBits = fAlphaSurface.GetBits();
			UInt32	srcWidth = fCurrTarget->GetWidth();

			for( y = 0; y < fCurrTarget->GetHeight(); y++ )
			{
				for( x = 0; x < srcWidth; x++ )
				{
					destRGBBits[ x ] = srcBits[ x ];	// Windows GDI probably doesn't care about the alpha bits here. Hopefully...
					destAlphaBits[ x ] = (UInt8)(srcBits[ x ] >> 24);
				}

				srcBits += srcWidth;
				destRGBBits += fRGBSurface.fWidth;
				destAlphaBits += fAlphaSurface.fWidth;
			}
		}
		else
		{
			// Nope, just do a straight memcopy
			UInt32	*destBits = fRGBSurface.GetBits();
			UInt32	srcWidth = fCurrTarget->GetWidth();

			for( y = 0; y < fCurrTarget->GetHeight(); y++ )
			{
				memcpy( destBits, srcBits, srcWidth * sizeof( UInt32 ) );

				srcBits += srcWidth;
				destBits += fRGBSurface.fWidth;
			}
		}		

		// ALSO, we need to re-update our settings, since different targets
		// can have different fonts or justifications
		ISetFont( fCurrTarget->GetFontFace(), fCurrTarget->GetFontSize(), 0/*fCurrTarget->GetWriterFontFlags()*/, fCurrTarget->GetFontAARGB() );
		SetJustify( (Justify)fCurrTarget->GetFontJustify() );
		ISetTextColor( fCurrTarget->GetFontColor(), fCurrTarget->GetFontBlockRGB() );

		fFlushed = false;
	}
}

hsBool	plDynSurfaceWriter::IsValid( void ) const
{
	if( fCurrTarget == nil )
		return false;

	if( fRGBSurface.fDC == nil || fRGBSurface.fBitmap == nil )
		return false;

	if( ( fFlags & kSupportAlpha ) && ( fAlphaSurface.fDC == nil || fAlphaSurface.fBitmap == nil ) )
		return false;

	return true;
}

///////////////////////////////////////////////////////////////////////////////
//// Rendering Functions //////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////

//// SetBitsFromBuffer ////////////////////////////////////////////////////////

/*
void	plDynSurfaceWriter::SetBitsFromBuffer( UInt32 *clearBuffer, UInt16 width, UInt16 height )
{
	int			x, y;
	UInt32		*data = (UInt32 *)fImage, *srcData = clearBuffer;
	UInt8		*destAlpha = nil;


	if( !IsValid() )
		return;

#if HS_BUILD_FOR_WIN32
	GdiFlush();
#endif

	// Clear *all* to zero
	memset( data, 0, fWidth * fHeight * sizeof( UInt32 ) );
	if( fHasAlpha )
	{
#if HS_BUILD_FOR_WIN32
		memset( fWinAlphaBits, 0, fWidth * fHeight );
		destAlpha = fWinAlphaBits;
#endif
	}

	// Buffer is of size fVisWidth x fVisHeight, so we need a bit of work to do this right
	for( y = 0; y < fVisHeight; y++ )
	{
		for( x = 0; x < fVisWidth; x++ )
		{
			data[ x ] = srcData[ x ];
		}

		if( destAlpha != nil )
		{
			for( x = 0; x < fVisWidth; x++ )
				destAlpha[ x ] = srcData[ x ] >> 24;

			destAlpha += fWidth;
		}

		data += fWidth;
		srcData += fVisWidth;
	}
}
*/

//// ClearToColor /////////////////////////////////////////////////////////////

void	plDynSurfaceWriter::ClearToColor( hsColorRGBA &color )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

#if HS_BUILD_FOR_WIN32

	UInt32		i, hexColor = color.ToARGB32();


	// Flush the GDI first, so it doesn't decide to overwrite us later
	GdiFlush();

	UInt32 *rgbBits = fRGBSurface.GetBits();
	for( i = 0; i < fRGBSurface.fWidth * fRGBSurface.fHeight; i++ )
		rgbBits[ i ] = hexColor;

	if( fFlags & kSupportAlpha )
	{
		UInt8 *alphaBits = fAlphaSurface.GetBits(), alpha = (UInt8)(hexColor >> 24);

		for( i = 0; i < fAlphaSurface.fWidth * fAlphaSurface.fHeight; i++ )
			alphaBits[ i ] = alpha;
	}
#endif
}

//// SetFont //////////////////////////////////////////////////////////////////
//	OS-specific. Load the given font for drawing the text with.

void	plDynSurfaceWriter::SetFont( const char *face, UInt16 size, UInt8 fontFlags, hsBool antiAliasRGB )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

	ISetFont( face, size, fontFlags, antiAliasRGB );
}

//// ISetFont /////////////////////////////////////////////////////////////////

void	plDynSurfaceWriter::ISetFont( const char *face, UInt16 size, UInt8 fontFlags, hsBool antiAliasRGB )
{
	fFlags = ( fFlags & ~kFontShadowed ) | ( fontFlags & kFontShadowed );

	if( !fRGBSurface.FontMatches( face, size, fontFlags, antiAliasRGB ) )
		fRGBSurface.SetFont( face, size, fontFlags, antiAliasRGB );

	if( fFlags & kSupportAlpha )
	{
		if( !fAlphaSurface.FontMatches( face, size, fontFlags, !antiAliasRGB ) )
			fAlphaSurface.SetFont( face, size, fontFlags, !antiAliasRGB );
	}
}

//// SetTextColor /////////////////////////////////////////////////////////////
//	blockRGB basically forces the RGB channel to write in blocks instead of
//	actual characters. This isn't useful unless you're relying on the alpha
//	channel to do the text (opaque text and transparent background), in which
//	case you want plenty of block color in your RGB channel because it'll get
//	alpha-ed out by the alpha channel.

void	plDynSurfaceWriter::SetTextColor( hsColorRGBA &color, hsBool blockRGB )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();
	ISetTextColor( color, blockRGB );
}

//// IRefreshTextColor ////////////////////////////////////////////////////////

void	plDynSurfaceWriter::ISetTextColor( hsColorRGBA &color, hsBool blockRGB )
{
#if HS_BUILD_FOR_WIN32

	int r = (int)(color.r * 255.f);
	int g = (int)(color.g * 255.f);
	int b = (int)(color.b * 255.f);

	fRGBSurface.fTextColor = RGB( r, g, b );
	if( fFlags & kSupportAlpha )
	{
		int a = (int)(color.a * 255.f);
		fAlphaSurface.fTextColor = RGB( a, a, a );
	}

	fFontBlockedRGB = blockRGB;

	if( fFontBlockedRGB && !( fFlags & kFontShadowed ) )
	{
		::SetBkColor( fRGBSurface.fDC, fRGBSurface.fTextColor );
		::SetBkMode( fRGBSurface.fDC, OPAQUE );
	}
	else
		::SetBkMode( fRGBSurface.fDC, TRANSPARENT );

	::SetTextColor( fRGBSurface.fDC, fRGBSurface.fTextColor );
	
	if( fFlags & kSupportAlpha )
		::SetTextColor( fAlphaSurface.fDC, fAlphaSurface.fTextColor );
#endif
}

//// SetJustify ///////////////////////////////////////////////////////////////

void	plDynSurfaceWriter::SetJustify( Justify j )
{
	fJustify = j;
}

//// IRefreshOSJustify ////////////////////////////////////////////////////////

void	plDynSurfaceWriter::IRefreshOSJustify( void )
{
	if( !IsValid() )
		return;

	UINT	justMode;
	switch( fJustify )
	{
		case kLeftJustify:	justMode = TA_LEFT; break;
		case kCenter:		justMode = TA_CENTER; break;
		case kRightJustify:	justMode = TA_RIGHT; break;
	}
	::SetTextAlign( fRGBSurface.fDC, justMode );
	if( fFlags & kSupportAlpha )
		::SetTextAlign( fAlphaSurface.fDC, justMode );
}

//// DrawString ///////////////////////////////////////////////////////////////

void	plDynSurfaceWriter::DrawString( UInt16 x, UInt16 y, const char *text )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

	IRefreshOSJustify();

#if HS_BUILD_FOR_WIN32
	if( fFlags & kFontShadowed )
	{
		::SetTextColor( fRGBSurface.fDC, RGB( 0, 0, 0 ) );
		::TextOut( fRGBSurface.fDC, x + 1, y + 1, text, strlen( text ) );

		::SetTextColor( fRGBSurface.fDC, fRGBSurface.fTextColor );
		::TextOut( fRGBSurface.fDC, x, y, text, strlen( text ) );

		if( fFlags & kSupportAlpha )
		{
			::TextOut( fAlphaSurface.fDC, x + 1, y + 1, text, strlen( text ) );
			::TextOut( fAlphaSurface.fDC, x, y, text, strlen( text ) );
		}
	}
	else
	{
		::TextOut( fRGBSurface.fDC, x, y, text, strlen( text ) );
		if( fFlags & kSupportAlpha )
			::TextOut( fAlphaSurface.fDC, x, y, text, strlen( text ) );
	}

#endif
}

//// DrawClippedString ////////////////////////////////////////////////////////

void	plDynSurfaceWriter::DrawClippedString( Int16 x, Int16 y, const char *text, UInt16 width, UInt16 height )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

	IRefreshOSJustify();

#if HS_BUILD_FOR_WIN32
	
	RECT	r;
	::SetRect( &r, x, y, x + width, y + height );

	if( fJustify == kRightJustify )
		x += width - 1;
	else if( fJustify == kCenter )
		x += width >> 1;

	if( fFlags & kFontShadowed )
	{
		::SetTextColor( fRGBSurface.fDC, RGB( 0, 0, 0 ) );

		::OffsetRect( &r, 1, 1 );
		::ExtTextOut( fRGBSurface.fDC, x + 1, y + 1, ETO_CLIPPED, &r, text, strlen( text ), nil );
		if( fFlags & kSupportAlpha )
			::ExtTextOut( fAlphaSurface.fDC, x + 1, y + 1, ETO_CLIPPED, &r, text, strlen( text ), nil );
		::OffsetRect( &r, -1, -1 );

		::SetTextColor( fRGBSurface.fDC, fRGBSurface.fTextColor );
	}

	::ExtTextOut( fRGBSurface.fDC, x, y, ETO_CLIPPED, &r, text, strlen( text ), nil );
	if( fFlags & kSupportAlpha )
		::ExtTextOut( fAlphaSurface.fDC, x, y, ETO_CLIPPED, &r, text, strlen( text ), nil );
	
#endif
}

//// DrawClippedString ////////////////////////////////////////////////////////

void	plDynSurfaceWriter::DrawClippedString( Int16 x, Int16 y, const char *text, UInt16 clipX, UInt16 clipY, UInt16 width, UInt16 height )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

	IRefreshOSJustify();

#if HS_BUILD_FOR_WIN32
	
	RECT	r;
	::SetRect( &r, clipX, clipY, clipX + width, clipY + height );

	if( fFlags & kFontShadowed )
	{
		::SetTextColor( fRGBSurface.fDC, RGB( 0, 0, 0 ) );

		::OffsetRect( &r, 1, 1 );
		::ExtTextOut( fRGBSurface.fDC, x + 1, y + 1, ETO_CLIPPED, &r, text, strlen( text ), nil );
		if( fFlags & kSupportAlpha )
			::ExtTextOut( fAlphaSurface.fDC, x + 1, y + 1, ETO_CLIPPED, &r, text, strlen( text ), nil );
		::OffsetRect( &r, -1, -1 );

		::SetTextColor( fRGBSurface.fDC, fRGBSurface.fTextColor );
	}

	::ExtTextOut( fRGBSurface.fDC, x, y, ETO_CLIPPED, &r, text, strlen( text ), nil );
	if( fFlags & kSupportAlpha )
		::ExtTextOut( fAlphaSurface.fDC, x, y, ETO_CLIPPED, &r, text, strlen( text ), nil );

#endif
}

//// DrawWrappedString ////////////////////////////////////////////////////////

void	plDynSurfaceWriter::DrawWrappedString( UInt16 x, UInt16 y, const char *text, UInt16 width, UInt16 height )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

#if HS_BUILD_FOR_WIN32
	
	RECT	r;
	::SetRect( &r, x, y, x + width, y + height );

	UINT	format = DT_TOP | DT_NOPREFIX | DT_WORDBREAK;
	switch( fJustify )
	{
		case kLeftJustify:	format |= DT_LEFT; break;
		case kCenter:		format |= DT_CENTER; break;
		case kRightJustify:	format |= DT_RIGHT; break;
	}

	if( fFlags & kFontShadowed )
	{
		::SetTextColor( fRGBSurface.fDC, RGB( 0, 0, 0 ) );

		::OffsetRect( &r, 1, 1 );
		::DrawText( fRGBSurface.fDC, text, strlen( text ), &r, format );
		if( fFlags & kSupportAlpha )
			::DrawText( fAlphaSurface.fDC, text, strlen( text ), &r, format );
		::OffsetRect( &r, -1, -1 );

		::SetTextColor( fRGBSurface.fDC, fRGBSurface.fTextColor );
	}

	::DrawText( fRGBSurface.fDC, text, strlen( text ), &r, format );
	if( fFlags & kSupportAlpha )
		::DrawText( fAlphaSurface.fDC, text, strlen( text ), &r, format );

#endif
}

//// CalcStringWidth //////////////////////////////////////////////////////////

UInt16		plDynSurfaceWriter::CalcStringWidth( const char *text, UInt16 *height )
{
	if( !IsValid() )
		return 0;

	IEnsureSurfaceUpdated();

#if HS_BUILD_FOR_WIN32

	SIZE size;
	::GetTextExtentPoint32( fRGBSurface.fDC, text, strlen( text ), &size );

	if( height != nil )
		*height = (UInt16)size.cy;

	return (UInt16)size.cx;
#endif
}

//// CalcWrappedStringSize ////////////////////////////////////////////////////

void	plDynSurfaceWriter::CalcWrappedStringSize( const char *text, UInt16 *width, UInt16 *height )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

#if HS_BUILD_FOR_WIN32

	RECT	r;
	::SetRect( &r, 0, 0, *width, 0 );

	UINT	format = DT_TOP | DT_NOPREFIX | DT_WORDBREAK | DT_CALCRECT;
	switch( fJustify )
	{
		case kLeftJustify:	format |= DT_LEFT; break;
		case kCenter:		format |= DT_CENTER; break;
		case kRightJustify:	format |= DT_RIGHT; break;
	}

	::DrawText( fRGBSurface.fDC, text, strlen( text ), &r, format );

	*width = (UInt16)(r.right);
	if( height != nil )
		*height = (UInt16)r.bottom;
#endif
}

//// FillRect /////////////////////////////////////////////////////////////////

void	plDynSurfaceWriter::FillRect( UInt16 x, UInt16 y, UInt16 width, UInt16 height, hsColorRGBA &color )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

#if HS_BUILD_FOR_WIN32

	RECT	rc;
	::SetRect( &rc, x, y, x + width, y + height );

	int r = (int)(color.r * 255.f);
	int g = (int)(color.g * 255.f);
	int b = (int)(color.b * 255.f);
	int a = (int)(color.a * 255.f);

	HBRUSH brush = ::CreateSolidBrush( RGB( r, g, b ) );
	::FillRect( fRGBSurface.fDC, &rc, brush );
	::DeleteObject( brush );

	if( fFlags & kSupportAlpha )
	{
		brush = ::CreateSolidBrush( RGB( a, a, a ) );
		::FillRect( fAlphaSurface.fDC, &rc, brush );
		::DeleteObject( brush );
	}

#endif
}

//// FrameRect ////////////////////////////////////////////////////////////////

void	plDynSurfaceWriter::FrameRect( UInt16 x, UInt16 y, UInt16 width, UInt16 height, hsColorRGBA &color )
{
	if( !IsValid() )
		return;

	IEnsureSurfaceUpdated();

#if HS_BUILD_FOR_WIN32

	RECT	rc;
	::SetRect( &rc, x, y, x + width, y + height );

	int r = (int)(color.r * 255.f);
	int g = (int)(color.g * 255.f);
	int b = (int)(color.b * 255.f);
	int a = (int)(color.a * 255.f);

	HBRUSH brush = ::CreateSolidBrush( RGB( r, g, b ) );
	::FrameRect( fRGBSurface.fDC, &rc, brush );
	::DeleteObject( brush );

	if( fFlags & kSupportAlpha )
	{
		brush = ::CreateSolidBrush( RGB( a, a, a ) );
		::FrameRect( fAlphaSurface.fDC, &rc, brush );
		::DeleteObject( brush );
	}

#endif
}

/*
//// DrawImage ////////////////////////////////////////////////////////////////

void	plDynSurfaceWriter::DrawImage( UInt16 x, UInt16 y, plMipmap *image, hsBool respectAlpha )
{
	if( !IsValid() )
		return;

#if HS_BUILD_FOR_WIN32
	// Flush the GDI first, to make sure it's done
	GdiFlush();
#endif

	plMipmap::CompositeOptions	opts( respectAlpha ? 0 : plMipmap::kForceOpaque );
	if( !fHasAlpha )
		opts.fFlags = plMipmap::kCopySrcAlpha;	// Don't care, this is fastest

	Composite( image, x, y, &opts );

	/// HACK for now, since the alpha in the mipmap gets copied straight into the
	/// 32-bit color buffer, but our separate hacked alpha buffer hasn't been updated
	if( fHasAlpha && !respectAlpha )
	{
		HBRUSH brush = ::CreateSolidBrush( RGB( 255, 255, 255 ) );
		RECT rc;
		::SetRect( &rc, x, y, x + image->GetWidth(), y + image->GetHeight() );
		::FillRect( fWinAlphaDC, &rc, brush );
		::DeleteObject( brush );
	}
}

//// DrawClippedImage /////////////////////////////////////////////////////////

void	plDynSurfaceWriter::DrawClippedImage( UInt16 x, UInt16 y, plMipmap *image, 
											UInt16 srcClipX, UInt16 srcClipY, 
											UInt16 srcClipWidth, UInt16 srcClipHeight, 
											hsBool respectAlpha )
{
	if( !IsValid() )
		return;

#if HS_BUILD_FOR_WIN32
	// Flush the GDI first, to make sure it's done
	GdiFlush();
#endif

	plMipmap::CompositeOptions	opts( respectAlpha ? 0 : plMipmap::kForceOpaque );
	if( !fHasAlpha )
		opts.fFlags = plMipmap::kCopySrcAlpha;	// Don't care, this is fastest

	opts.fSrcClipX = srcClipX;
	opts.fSrcClipY = srcClipY;
	opts.fSrcClipWidth = srcClipWidth;
	opts.fSrcClipHeight = srcClipHeight;
	Composite( image, x, y, &opts );

	/// HACK for now, since the alpha in the mipmap gets copied straight into the
	/// 32-bit color buffer, but our separate hacked alpha buffer hasn't been updated
	if( fHasAlpha && !respectAlpha )
	{
		HBRUSH brush = ::CreateSolidBrush( RGB( 255, 255, 255 ) );
		RECT rc;
		::SetRect( &rc, x, y, x + ( srcClipWidth > 0 ? srcClipWidth : image->GetWidth() ),
							y + ( srcClipHeight > 0 ? srcClipHeight : image->GetHeight() ) );
		::FillRect( fWinAlphaDC, &rc, brush );
		::DeleteObject( brush );
	}
}
*/