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path: root/kstyles/keramik/pixmaploader.cpp
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/*
   Copyright (c) 2002 Malte Starostik <[email protected]>
             (c) 2002,2003 Maksim Orlovich <[email protected]>

   This library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Library General Public
   License as published by the Free Software Foundation; either
   version 2 of the License, or (at your option) any later version.

   This library 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
   Library General Public License for more details.

   You should have received a copy of the GNU Library General Public License
   along with this library; see the file COPYING.LIB.  If not, write to
   the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
   Boston, MA 02110-1301, USA.
*/

// $Id$

#include <tqapplication.h>
#include <tqbitmap.h>
#include <tqglobal.h>
#include <tqimage.h>
#include <tqpainter.h>
#include <tqpixmap.h>
#include <tqpixmapcache.h>

#include "pixmaploader.h"


#include "pixmaps.keramik"

using namespace Keramik;

PixmapLoader* PixmapLoader::s_instance = 0;

PixmapLoader::PixmapLoader():  m_pixmapCache(327680, 2017)

{
	m_pixmapCache.setAutoDelete(true);

	for (int c=0; c<256; c++)
		clamp[c]=static_cast<unsigned char>(c);

	for (int c=256; c<540; c++)
		clamp[c] = 255;

}

void PixmapLoader::clear()
{
	//m_cache.clear();
}

TQImage* PixmapLoader::getDisabled(int name, const TQColor& color, const TQColor& back, bool blend)
{
	KeramikEmbedImage* edata = KeramikGetDbImage(name);
	if (!edata)
		return 0;

	//Like getColored, but desaturate a bit, and lower gamma..

	//Create a real image...
	TQImage* img = new TQImage(edata->width, edata->height, 32);



	//OK, now, fill it in, using the color..
	TQ_UINT32 r, g,b;
	TQ_UINT32 i = tqGray(color.rgb());
	r = (3*color.red()+i)>>2;
	g = (3*color.green()+i)>>2;
	b = (3*color.blue()+i)>>2;

	TQ_UINT32 br = back.red(), bg = back.green(), bb = back.blue();


	if (edata->haveAlpha)
	{
		if (blend)
		{
			img->setAlphaBuffer(false);
			TQ_UINT32* write = reinterpret_cast< TQ_UINT32* >(img->bits() );
			int size = img->width()*img->height() * 3;

			for (int pos = 0; pos < size; pos+=3)
			{
				TQ_UINT32 scale  = edata->data[pos];
				TQ_UINT32 add    = (edata->data[pos+1]*i+127)>>8;
				TQ_UINT32 alpha = edata->data[pos+2];
				TQ_UINT32 destAlpha = 256 - alpha;

				TQ_UINT32 rr = clamp[((r*scale+127)>>8) + add];
				TQ_UINT32 rg = clamp[((g*scale+127)>>8) + add];
				TQ_UINT32 rb = clamp[((b*scale+127)>>8) + add];

				*write =tqRgb(((rr*alpha+127)>>8) + ((br*destAlpha+127)>>8),
									((rg*alpha+127)>>8) + ((bg*destAlpha+127)>>8),
									((rb*alpha+127)>>8) + ((bb*destAlpha+127)>>8));

				write++;
			}
		}
		else
		{
			img->setAlphaBuffer(true);
			TQ_UINT32* write = reinterpret_cast< TQ_UINT32* >(img->bits() );
			int size = img->width()*img->height() * 3;

			for (int pos = 0; pos < size; pos+=3)
			{
				TQ_UINT32 scale  = edata->data[pos];
				TQ_UINT32 add    = (edata->data[pos+1]*i+127)>>8;
				TQ_UINT32 alpha = edata->data[pos+2];

				TQ_UINT32 rr = clamp[((r*scale+127)>>8) + add];
				TQ_UINT32 rg = clamp[((g*scale+127)>>8) + add];
				TQ_UINT32 rb = clamp[((b*scale+127)>>8) + add];

				*write =tqRgba(rr, rg, rb, alpha);

				write++;
			}

		}
	}
	else
	{
		img->setAlphaBuffer(false);
		TQ_UINT32* write = reinterpret_cast< TQ_UINT32* >(img->bits() );
		int size = img->width()*img->height() * 2;

		for (int pos = 0; pos < size; pos+=2)
		{
			TQ_UINT32 scale  = edata->data[pos];
			TQ_UINT32 add    = (edata->data[pos+1]*i+127)>>8;
			TQ_UINT32 rr = clamp[((r*scale+127)>>8) + add];
			TQ_UINT32 rg = clamp[((g*scale+127)>>8) + add];
			TQ_UINT32 rb = clamp[((b*scale+127)>>8) + add];
			*write =tqRgb(rr, rg, rb);
			write++;
		}
	}

	return img;
}

TQImage* PixmapLoader::getColored(int name, const TQColor& color, const TQColor& back, bool blend)
{
	KeramikEmbedImage* edata = KeramikGetDbImage(name);
	if (!edata)
		return 0;

	//Create a real image...
	TQImage* img = new TQImage(edata->width, edata->height, 32);

	//OK, now, fill it in, using the color..
	TQ_UINT32 r, g,b;
	r = color.red() + 2;
	g = color.green() + 2;
	b = color.blue() + 2;

//	int i = tqGray(color.rgb());

	TQ_UINT32 br = back.red(), bg = back.green(), bb = back.blue();

	if (edata->haveAlpha)
	{
		if (blend)
		{
			img->setAlphaBuffer(false);

			TQ_UINT32* write = reinterpret_cast< TQ_UINT32* >(img->bits() );
			int size = img->width()*img->height() * 3;
			for (int pos = 0; pos < size; pos+=3)
			{
				TQ_UINT32 scale  = edata->data[pos];
				TQ_UINT32 add    = edata->data[pos+1];
				TQ_UINT32 alpha = edata->data[pos+2];
				TQ_UINT32 destAlpha = 256 - alpha;

				if (scale != 0)
					add = add*5/4;

				TQ_UINT32 rr = clamp[((r*scale+127)>>8) + add];
				TQ_UINT32 rg = clamp[((g*scale+127)>>8) + add];
				TQ_UINT32 rb = clamp[((b*scale+127)>>8) + add];

				*write =tqRgb(((rr*alpha+127)>>8) + ((br*destAlpha+127)>>8),
									((rg*alpha+127)>>8) + ((bg*destAlpha+127)>>8),
									((rb*alpha+127)>>8) + ((bb*destAlpha+127)>>8));

				write++;
			}
		}
		else
		{
			img->setAlphaBuffer(true);

			TQ_UINT32* write = reinterpret_cast< TQ_UINT32* >(img->bits() );
			int size = img->width()*img->height() * 3;

			for (int pos = 0; pos < size; pos+=3)
			{
				TQ_UINT32 scale  = edata->data[pos];
				TQ_UINT32 add    = edata->data[pos+1];
				TQ_UINT32 alpha = edata->data[pos+2];
				if (scale != 0)
					add = add*5/4;

				TQ_UINT32 rr = clamp[((r*scale+127)>>8) + add];
				TQ_UINT32 rg = clamp[((g*scale+127)>>8) + add];
				TQ_UINT32 rb = clamp[((b*scale+127)>>8) + add];

				*write =tqRgba(rr, rg, rb, alpha);
				write++;
			}
		}
	}
	else
	{
		img->setAlphaBuffer(false);

		TQ_UINT32* write = reinterpret_cast< TQ_UINT32* >(img->bits() );
		int size = img->width()*img->height() * 2;

		for (int pos = 0; pos < size; pos+=2)
		{
			TQ_UINT32 scale  = edata->data[pos];
			TQ_UINT32 add    = edata->data[pos+1];
			if (scale != 0)
				add = add*5/4;

			TQ_UINT32 rr = clamp[((r*scale+127)>>8) + add];
			TQ_UINT32 rg = clamp[((g*scale+127)>>8) + add];
			TQ_UINT32 rb = clamp[((b*scale+127)>>8) + add];


			*write =tqRgb(rr, rg, rb);
			write++;
		}
	}

	return img;
}

TQPixmap PixmapLoader::pixmap( int name, const TQColor& color, const TQColor& bg, bool disabled, bool blend )
{
	return scale(name, 0, 0, color, bg, disabled, blend);
}


TQPixmap PixmapLoader::scale( int name, int width, int height, const TQColor& color,  const TQColor& bg, bool disabled, bool blend )
{
	KeramikCacheEntry entry(name, color, bg, disabled, blend, width, height);
	KeramikCacheEntry* cacheEntry;

	int key = entry.key();

	if ((cacheEntry = m_pixmapCache.find(key, true)))
	{
		if (entry == *cacheEntry) //True match!
			return *cacheEntry->m_pixmap;
		else //Remove old entry in case of a conflict!
			m_pixmapCache.remove(key);
	}


	TQImage* img = 0;
	TQPixmap* result = 0;

	if (disabled)
		img = getDisabled(name, color, bg, blend);
	else
		img = getColored(name, color, bg, blend);

	if (!img)
	{
		KeramikCacheEntry* toAdd = new KeramikCacheEntry(entry);
		toAdd->m_pixmap = new TQPixmap();
		m_pixmapCache.insert(key, toAdd, 16);
		return TQPixmap();
	}

	if (width == 0 && height == 0)
		result = new TQPixmap(*img);
	else
		result = new TQPixmap(img->smoothScale( width ? width : img->width(),
											   height ? height: img->height()));
	delete img;

	KeramikCacheEntry* toAdd = new KeramikCacheEntry(entry);
	toAdd->m_pixmap = result;

	if (!m_pixmapCache.insert(key, toAdd, result->width()*result->height()*result->depth()/8)) {
		TQPixmap toRet = *result;
		delete toAdd;
		return toRet;
	}
	
	return *result;
}

TQSize PixmapLoader::size( int id )
{
	KeramikEmbedImage* edata = KeramikGetDbImage(id);
	if (!edata)
		return TQSize(0,0);
	return TQSize(edata->width, edata->height);
}

void TilePainter::draw( TQPainter *p, int x, int y, int width, int height, const TQColor& color, const TQColor& bg, bool disabled, PaintMode mode )
{
	if (mode == PaintTrivialMask)
	{
		p->fillRect(x, y, width, height, Qt::color1);
		return;
	}

	bool swBlend = (mode != PaintFullBlend);
	unsigned int scaledColumns = 0, scaledRows = 0, lastScaledColumn = 0, lastScaledRow = 0;
	int scaleWidth = width, scaleHeight = height;

	//scaleWidth, scaleHeight are calculated to contain the area available
	//for all tiled and stretched columns/rows respectively.
	//This is need to redistribute the area remaining after painting
	//the "fixed" elements. We also keep track of the last col and row
	//being scaled so rounding errors don't cause us to be short a pixel or so.
	for ( unsigned int col = 0; col < columns(); ++col )
		if ( columnMode( col ) != Fixed )
		{
			scaledColumns++;
			lastScaledColumn = col;
		}
		else scaleWidth -= PixmapLoader::the().size (absTileName( col, 0 ) ).width();

	for ( unsigned int row = 0; row < rows(); ++row )
		if ( rowMode( row ) != Fixed )
		{
			scaledRows++;
			lastScaledRow = row;
		}
		else scaleHeight -= PixmapLoader::the().size (absTileName( 0, row ) ).height();


	if ( scaleWidth < 0 ) scaleWidth = 0;
	if ( scaleHeight < 0 ) scaleHeight = 0;


	int ypos = y;

	//Center vertically if everything is fixed but there is extra room remaining
	if ( scaleHeight && !scaledRows )
		ypos += scaleHeight / 2;

	for ( unsigned int row = 0; row < rows(); ++row )
	{
		int xpos = x;

		//Center horizontally if extra space and no where to redistribute it to...
		if ( scaleWidth && !scaledColumns )
			xpos += scaleWidth / 2;

		//If not fixed vertically, calculate our share of space available
		//for scalable rows.
		int h = rowMode( row ) == Fixed ? 0 : scaleHeight / scaledRows;

		//Redistribute any "extra" pixels to the last scaleable row.
		if ( scaledRows && row == lastScaledRow )
		{
			int allocatedEvenly = scaleHeight / scaledRows * scaledRows;
			h += scaleHeight - allocatedEvenly;
		}


		//If we're fixed, get the height from the pixmap itself.
		int realH = h ? h : PixmapLoader::the().size (absTileName( 0, row ) ).height();

		//Skip non-fitting stretched/tiled rows, too.
		if (rowMode( row ) != Fixed && h == 0)
			continue;


		//Set h to 0 to denote that we aren't scaling
		if ( rowMode( row ) == Tiled )
			h = 0;

		for ( unsigned int col = 0; col < columns(); ++col )
		{
			//Calculate width for rows that aren't fixed.
			int w = columnMode( col ) == Fixed ? 0 : scaleWidth / scaledColumns;

			//Get the width of the pixmap..
			int tileW = PixmapLoader::the().size (absTileName( col, row ) ).width();

			//Redistribute any extra pixels..
			if ( scaledColumns && col == lastScaledColumn ) w += scaleWidth - scaleWidth / scaledColumns * scaledColumns;

			//The width to use...
			int realW = w ? w : tileW;

			//Skip any non-fitting stretched/tiled columns
			if (columnMode( col ) != Fixed && w == 0)
				continue;

			//Set w to 0 to denote that we aren't scaling
			if ( columnMode( col ) == Tiled )
				w = 0;

			//If we do indeed have a pixmap..
			if ( tileW )
			{
				//If scaling in either direction.
				if ( w || h )
				{
					if (mode != PaintMask)
					{
						p->drawTiledPixmap( xpos, ypos, realW, realH, scale( col, row, w, h, color, bg, disabled, swBlend ) );
					}
					else
					{
						const TQBitmap* mask  = scale( col, row, w, h, color,  bg, disabled, false ).mask();
						if (mask)
						{
							p->setBackgroundColor(Qt::color0);
							p->setPen(Qt::color1);
							p->drawTiledPixmap( xpos, ypos, realW, realH, *mask);
						}
						else
							p->fillRect ( xpos, ypos, realW, realH, Qt::color1);
					}
				}
				else
				{
					//Tiling (or fixed, the same really)
					if (mode != PaintMask)
					{
						p->drawTiledPixmap( xpos, ypos, realW, realH, tile( col, row, color, bg, disabled, swBlend ) );
					}
					else
					{
						const TQBitmap* mask = tile( col, row, color, bg, disabled, false ).mask();
						if (mask)
						{
							p->setBackgroundColor(Qt::color0);
							p->setPen(Qt::color1);
							p->drawTiledPixmap( xpos, ypos, realW, realH, *mask);
						}
						else
							p->fillRect ( xpos, ypos, realW, realH, Qt::color1);

					}
				}
			}

			//Advance horizontal position
			xpos += realW;
		}

		//Advance vertical position
		ypos += realH;
	}
}

RectTilePainter::RectTilePainter( int name,
                                  bool scaleH, bool scaleV,
                                  unsigned int columns, unsigned int rows )
	: TilePainter( name ),
	  m_scaleH( scaleH ),
	  m_scaleV( scaleV )
{
	m_columns =  columns;
	m_rows       = rows;

	TileMode mh = m_scaleH ? Scaled : Tiled;
	TileMode mv = m_scaleV ? Scaled : Tiled;
	for (int c=0; c<4; c++)
	{
		if (c != 1)
			colMde[c] = Fixed;
		else
			colMde[c] = mh;
	}

	for (int c=0; c<4; c++)
	{
		if (c != 1)
			rowMde[c] = Fixed;
		else
			rowMde[c] = mv;
	}

}

int RectTilePainter::tileName( unsigned int column, unsigned int row ) const
{
	return row *3 +  column;
}

ActiveTabPainter::ActiveTabPainter( bool bottom )
	: RectTilePainter( bottom? keramik_tab_bottom_active: keramik_tab_top_active, false),
	  m_bottom( bottom )
{
	m_rows = 2;
	if (m_bottom)
	{
		rowMde[0] = rowMde[2] = rowMde[3] = Scaled;
		rowMde[1] = Fixed;
	}
	else
	{
		rowMde[0] = rowMde[2] = rowMde[3] = Fixed;
		rowMde[1] = Scaled;
	}
}

int ActiveTabPainter::tileName( unsigned int column, unsigned int row ) const
{
	if ( m_bottom )
		return RectTilePainter::tileName( column, row + 1 );
	return RectTilePainter::tileName( column, row );
}

InactiveTabPainter::InactiveTabPainter( Mode mode, bool bottom )
	: RectTilePainter( bottom? keramik_tab_bottom_inactive: keramik_tab_top_inactive, false),
	  m_mode( mode ), m_bottom( bottom )
{
	m_rows = 2;
	if (m_bottom)
	{
		rowMde[0] = Scaled;
		rowMde[1] = Fixed;
	}
	else
	{
		rowMde[0] = Fixed;
		rowMde[1] = Scaled;
	}

	/**
	 Most fully, inactive tabs look like this:
	 L  C  R
	 / --- \
	 | === |

	 Where L,C, and R denote the tile positions. Of course, we don't want to draw all of the rounding for all the tabs.

	 We want the left-most tab to look like this:

	 L C
	 / --
	 | ==

	 "Middle" tabs look like this:

	 L C
	 | --
	 | ==

	 And the right most tab looks like this:

	 L C  R
	 | -- \
	 | == |

	So we have to vary the number of columns, and for everything but left-most tab, the L tab gets the special separator
	tile.
    */

	Mode rightMost = TQApplication::reverseLayout() ? First : Last;
	m_columns = (m_mode == rightMost ? 3 : 2);
}

int InactiveTabPainter::tileName( unsigned int column, unsigned int row ) const
{
	Mode leftMost = TQApplication::reverseLayout() ? Last : First;
	if ( column == 0 && m_mode != leftMost )
		return KeramikTileSeparator;
	if ( m_bottom )
		return RectTilePainter::tileName( column, row + 1 );
	return RectTilePainter::tileName( column, row );
}

ScrollBarPainter::ScrollBarPainter( int type, int count, bool horizontal )
	: TilePainter( name( horizontal ) ),
	  m_type( type ),
	  m_count( count ),
	  m_horizontal( horizontal )
{
	for (int c=0; c<5; c++)
	{
		if ( !m_horizontal || !( c % 2 ) ) colMde[c] = Fixed;
		else colMde[c] =  Tiled;

		if ( m_horizontal || !( c % 2 ) ) rowMde[c] = Fixed;
		else rowMde[c] =  Tiled;
	}

	m_columns = m_horizontal ? m_count : 1;
	m_rows       = m_horizontal ? 1 : m_count;

}

int ScrollBarPainter::name( bool horizontal )
{
	return horizontal? keramik_scrollbar_hbar: keramik_scrollbar_vbar;
}

int ScrollBarPainter::tileName( unsigned int column, unsigned int row ) const
{
	unsigned int num = ( column ? column : row ) + 1;
	if ( m_count == 5 )
		if ( num == 3 ) num = 4;
		else if ( num == 4 ) num = 2;
		else if ( num == 5 ) num = 3;

	return m_type + (num-1)*16;
}

int SpinBoxPainter::tileName( unsigned int column, unsigned int ) const
{
	return column + 1;
}

// vim: ts=4 sw=4 noet
// kate: indent-width 4; replace-tabs off; tab-width 4; space-indent off;