rfb/PixelBuffer.cxx - android_external_tigervnc - Gitiles

 /* Copyright (C) 2002-2005 RealVNC Ltd.  All Rights Reserved.
  *
  * This 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 2 of the License, or
  * (at your option) any later version.
  *
  * This software 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 software; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307,
  * USA.
  */

 // -=- PixelBuffer.cxx
 //
 // The PixelBuffer class encapsulates the PixelFormat and dimensions
 // of a block of pixel data.

 #include <rfb/Exception.h>
 #include <rfb/LogWriter.h>
 #include <rfb/PixelBuffer.h>

 using namespace rfb;
 using namespace rdr;

 static LogWriter vlog("PixelBuffer");


 // -=- Generic pixel buffer class

 PixelBuffer::PixelBuffer(const PixelFormat& pf, int w, int h, ColourMap* cm)
   : format(pf), width_(w), height_(h), colourmap(cm) {}
 PixelBuffer::PixelBuffer() : width_(0), height_(0), colourmap(0) {}

 PixelBuffer::~PixelBuffer() {}


 void PixelBuffer::setPF(const PixelFormat &pf) {format = pf;}
 const PixelFormat& PixelBuffer::getPF() const {return format;}
 ColourMap* PixelBuffer::getColourMap() const {return colourmap;}


 void
 PixelBuffer::getImage(void* imageBuf, const Rect& r, int outStride) {
   int inStride;
   const U8* data = getPixelsR(r, &inStride);
   // We assume that the specified rectangle is pre-clipped to the buffer
   int bytesPerPixel = format.bpp/8;
   int inBytesPerRow = inStride * bytesPerPixel;
   if (!outStride) outStride = r.width();
   int outBytesPerRow = outStride * bytesPerPixel;
   int bytesPerMemCpy = r.width() * bytesPerPixel;
   U8* imageBufPos = (U8*)imageBuf;
   const U8* end = data + (inBytesPerRow * r.height());
   while (data < end) {
     memcpy(imageBufPos, data, bytesPerMemCpy);
     imageBufPos += outBytesPerRow;
     data += inBytesPerRow;
   }
 }

 /* ***
 Pixel PixelBuffer::getPixel(const Point& p) {
   int stride;
   Rect r = Rect(p.x, p.y, p.x+1, p.y+1);
   switch(format.bpp) {
   case 8: return *((rdr::U8*)getDataAt(r, &stride));
   case 16: return *((rdr::U16*)getDataAt(r, &stride));
   case 32: return *((rdr::U32*)getDataAt(r, &stride));
   default: return 0;
   };
 }
 */


 FullFramePixelBuffer::FullFramePixelBuffer(const PixelFormat& pf, int w, int h,
                                            rdr::U8* data_, ColourMap* cm)
   : PixelBuffer(pf, w, h, cm), data(data_)
 {
 }

 FullFramePixelBuffer::FullFramePixelBuffer() : data(0) {}

 FullFramePixelBuffer::~FullFramePixelBuffer() {}


 int FullFramePixelBuffer::getStride() const { return width(); }

 rdr::U8* FullFramePixelBuffer::getPixelsRW(const Rect& r, int* stride)
 {
   *stride = getStride();
   return &data[(r.tl.x + (r.tl.y * *stride)) * format.bpp/8];
 }


 void FullFramePixelBuffer::fillRect(const Rect& r, Pixel pix) {
   int stride;
   U8* data = getPixelsRW(r, &stride);
   int bytesPerPixel = getPF().bpp/8;
   int bytesPerRow = bytesPerPixel * stride;
   int bytesPerFill = bytesPerPixel * r.width();

   U8* end = data + (bytesPerRow * r.height());
   while (data < end) {
     switch (bytesPerPixel) {
     case 1:
       memset(data, pix, bytesPerFill);
       break;
     case 2:
       {
         U16* optr = (U16*)data;
         U16* eol = optr + r.width();
         while (optr < eol)
           *optr++ = pix;
       }
       break;
     case 4:
       {
         U32* optr = (U32*)data;
         U32* eol = optr + r.width();
         while (optr < eol)
           *optr++ = pix;
       }
       break;
     }
     data += bytesPerRow;
   }
 }

 void FullFramePixelBuffer::imageRect(const Rect& r, const void* pixels, int srcStride) {
   int bytesPerPixel = getPF().bpp/8;
   int destStride;
   U8* dest = getPixelsRW(r, &destStride);
   int bytesPerDestRow = bytesPerPixel * destStride;
   if (!srcStride) srcStride = r.width();
   int bytesPerSrcRow = bytesPerPixel * srcStride;
   int bytesPerFill = bytesPerPixel * r.width();
   const U8* src = (const U8*)pixels;
   U8* end = dest + (bytesPerDestRow * r.height());
   while (dest < end) {
     memcpy(dest, src, bytesPerFill);
     dest += bytesPerDestRow;
     src += bytesPerSrcRow;
   }
 }

 void FullFramePixelBuffer::maskRect(const Rect& r, const void* pixels, const void* mask_) {
   Rect cr = getRect().intersect(r);
   if (cr.is_empty()) return;
   int stride;
   U8* data = getPixelsRW(cr, &stride);
   U8* mask = (U8*) mask_;
   int w = cr.width();
   int h = cr.height();
   int bpp = getPF().bpp;
   int pixelStride = r.width();
   int maskStride = (r.width() + 7) / 8;

   Point offset = Point(cr.tl.x-r.tl.x, cr.tl.y-r.tl.y);
   mask += offset.y * maskStride;
   for (int y = 0; y < h; y++) {
     int cy = offset.y + y;
     for (int x = 0; x < w; x++) {
       int cx = offset.x + x;
       U8* byte = mask + (cx / 8);
       int bit = 7 - cx % 8;
       if ((*byte) & (1 << bit)) {
         switch (bpp) {
         case 8:
           ((U8*)data)[y * stride + x] = ((U8*)pixels)[cy * pixelStride + cx];
           break;
         case 16:
           ((U16*)data)[y * stride + x] = ((U16*)pixels)[cy * pixelStride + cx];
           break;
         case 32:
           ((U32*)data)[y * stride + x] = ((U32*)pixels)[cy * pixelStride + cx];
           break;
         }
       }
     }
     mask += maskStride;
   }
 }

 void FullFramePixelBuffer::maskRect(const Rect& r, Pixel pixel, const void* mask_) {
   Rect cr = getRect().intersect(r);
   if (cr.is_empty()) return;
   int stride;
   U8* data = getPixelsRW(cr, &stride);
   U8* mask = (U8*) mask_;
   int w = cr.width();
   int h = cr.height();
   int bpp = getPF().bpp;
   int maskStride = (r.width() + 7) / 8;

   Point offset = Point(cr.tl.x-r.tl.x, cr.tl.y-r.tl.y);
   mask += offset.y * maskStride;
   for (int y = 0; y < h; y++) {
     for (int x = 0; x < w; x++) {
       int cx = offset.x + x;
       U8* byte = mask + (cx / 8);
       int bit = 7 - cx % 8;
       if ((*byte) & (1 << bit)) {
         switch (bpp) {
         case 8:
           ((U8*)data)[y * stride + x] = pixel;
           break;
         case 16:
           ((U16*)data)[y * stride + x] = pixel;
           break;
         case 32:
           ((U32*)data)[y * stride + x] = pixel;
           break;
         }
       }
     }
     mask += maskStride;
   }
 }

 void FullFramePixelBuffer::copyRect(const Rect &rect, const Point &move_by_delta) {
   int stride;
   U8* data = getPixelsRW(getRect(), &stride);
   // We assume that the specified rectangle is pre-clipped to the buffer
   unsigned int bytesPerPixel, bytesPerRow, bytesPerMemCpy;
   Rect srect = rect.translate(move_by_delta.negate());
   bytesPerPixel = getPF().bpp/8;
   bytesPerRow = stride * bytesPerPixel;
   bytesPerMemCpy = rect.width() * bytesPerPixel;
   if (move_by_delta.y <= 0) {
     U8* dest = data + rect.tl.x*bytesPerPixel + rect.tl.y*bytesPerRow;
     U8* src = data + srect.tl.x*bytesPerPixel + srect.tl.y*bytesPerRow;
     for (int i=rect.tl.y; i<rect.br.y; i++) {
       memmove(dest, src, bytesPerMemCpy);
       dest += bytesPerRow;
       src += bytesPerRow;
     }
   } else {
     U8* dest = data + rect.tl.x*bytesPerPixel + (rect.br.y-1)*bytesPerRow;
     U8* src = data + srect.tl.x*bytesPerPixel + (srect.br.y-1)*bytesPerRow;
     for (int i=rect.tl.y; i<rect.br.y; i++) {
       memmove(dest, src, bytesPerMemCpy);
       dest -= bytesPerRow;
       src -= bytesPerRow;
     }
   }
 }


 // -=- Managed pixel buffer class
 // Automatically allocates enough space for the specified format & area

 ManagedPixelBuffer::ManagedPixelBuffer()
   : datasize(0), own_colourmap(false)
 {
   checkDataSize();
 };

 ManagedPixelBuffer::ManagedPixelBuffer(const PixelFormat& pf, int w, int h)
   : FullFramePixelBuffer(pf, w, h, 0, 0), datasize(0), own_colourmap(false)
 {
   checkDataSize();
 };

 ManagedPixelBuffer::~ManagedPixelBuffer() {
   if (data) delete [] data;
   if (colourmap && own_colourmap) delete colourmap;
 };


 void
 ManagedPixelBuffer::setPF(const PixelFormat &pf) {
   format = pf; checkDataSize();
 };
 void
 ManagedPixelBuffer::setSize(int w, int h) {
   width_ = w; height_ = h; checkDataSize();
 };


 void
 ManagedPixelBuffer::setColourMap(ColourMap* cm, bool own_cm) {
   if (colourmap && own_colourmap) delete colourmap;
   colourmap = cm;
   own_colourmap = own_cm;
 }

 inline void
 ManagedPixelBuffer::checkDataSize() {
   unsigned long new_datasize = width_ * height_ * (format.bpp/8);
   if (datasize < new_datasize) {
     vlog.debug("reallocating managed buffer (%dx%d)", width_, height_);
     if (data) {
       delete [] data;
       datasize = 0; data = 0;
     }
     if (new_datasize) {
       data = new U8[new_datasize];
       if (!data)
         throw Exception("rfb::ManagedPixelBuffer unable to allocate buffer");
       datasize = new_datasize;
     }
   }
 };
	/* Copyright (C) 2002-2005 RealVNC Ltd. All Rights Reserved.
	*
	* This 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 2 of the License, or
	* (at your option) any later version.
	*
	* This software 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 software; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
	* USA.
	*/

	// -=- PixelBuffer.cxx
	//
	// The PixelBuffer class encapsulates the PixelFormat and dimensions
	// of a block of pixel data.

	#include <rfb/Exception.h>
	#include <rfb/LogWriter.h>
	#include <rfb/PixelBuffer.h>

	using namespace rfb;
	using namespace rdr;

	static LogWriter vlog("PixelBuffer");


	// -=- Generic pixel buffer class

	PixelBuffer::PixelBuffer(const PixelFormat& pf, int w, int h, ColourMap* cm)
	: format(pf), width_(w), height_(h), colourmap(cm) {}
	PixelBuffer::PixelBuffer() : width_(0), height_(0), colourmap(0) {}

	PixelBuffer::~PixelBuffer() {}


	void PixelBuffer::setPF(const PixelFormat &pf) {format = pf;}
	const PixelFormat& PixelBuffer::getPF() const {return format;}
	ColourMap* PixelBuffer::getColourMap() const {return colourmap;}


	void
	PixelBuffer::getImage(void* imageBuf, const Rect& r, int outStride) {
	int inStride;
	const U8* data = getPixelsR(r, &inStride);
	// We assume that the specified rectangle is pre-clipped to the buffer
	int bytesPerPixel = format.bpp/8;
	int inBytesPerRow = inStride * bytesPerPixel;
	if (!outStride) outStride = r.width();
	int outBytesPerRow = outStride * bytesPerPixel;
	int bytesPerMemCpy = r.width() * bytesPerPixel;
	U8* imageBufPos = (U8*)imageBuf;
	const U8* end = data + (inBytesPerRow * r.height());
	while (data < end) {
	memcpy(imageBufPos, data, bytesPerMemCpy);
	imageBufPos += outBytesPerRow;
	data += inBytesPerRow;
	}
	}

	/* ***
	Pixel PixelBuffer::getPixel(const Point& p) {
	int stride;
	Rect r = Rect(p.x, p.y, p.x+1, p.y+1);
	switch(format.bpp) {
	case 8: return ((rdr::U8)getDataAt(r, &stride));
	case 16: return ((rdr::U16)getDataAt(r, &stride));
	case 32: return ((rdr::U32)getDataAt(r, &stride));
	default: return 0;
	};
	}
	*/


	FullFramePixelBuffer::FullFramePixelBuffer(const PixelFormat& pf, int w, int h,
	rdr::U8* data_, ColourMap* cm)
	: PixelBuffer(pf, w, h, cm), data(data_)
	{
	}

	FullFramePixelBuffer::FullFramePixelBuffer() : data(0) {}

	FullFramePixelBuffer::~FullFramePixelBuffer() {}


	int FullFramePixelBuffer::getStride() const { return width(); }

	rdr::U8* FullFramePixelBuffer::getPixelsRW(const Rect& r, int* stride)
	{
	*stride = getStride();
	return &data[(r.tl.x + (r.tl.y * stride)) format.bpp/8];
	}


	void FullFramePixelBuffer::fillRect(const Rect& r, Pixel pix) {
	int stride;
	U8* data = getPixelsRW(r, &stride);
	int bytesPerPixel = getPF().bpp/8;
	int bytesPerRow = bytesPerPixel * stride;
	int bytesPerFill = bytesPerPixel * r.width();

	U8* end = data + (bytesPerRow * r.height());
	while (data < end) {
	switch (bytesPerPixel) {
	case 1:
	memset(data, pix, bytesPerFill);
	break;
	case 2:
	{
	U16* optr = (U16*)data;
	U16* eol = optr + r.width();
	while (optr < eol)
	*optr++ = pix;
	}
	break;
	case 4:
	{
	U32* optr = (U32*)data;
	U32* eol = optr + r.width();
	while (optr < eol)
	*optr++ = pix;
	}
	break;
	}
	data += bytesPerRow;
	}
	}

	void FullFramePixelBuffer::imageRect(const Rect& r, const void* pixels, int srcStride) {
	int bytesPerPixel = getPF().bpp/8;
	int destStride;
	U8* dest = getPixelsRW(r, &destStride);
	int bytesPerDestRow = bytesPerPixel * destStride;
	if (!srcStride) srcStride = r.width();
	int bytesPerSrcRow = bytesPerPixel * srcStride;
	int bytesPerFill = bytesPerPixel * r.width();
	const U8* src = (const U8*)pixels;
	U8* end = dest + (bytesPerDestRow * r.height());
	while (dest < end) {
	memcpy(dest, src, bytesPerFill);
	dest += bytesPerDestRow;
	src += bytesPerSrcRow;
	}
	}

	void FullFramePixelBuffer::maskRect(const Rect& r, const void* pixels, const void* mask_) {
	Rect cr = getRect().intersect(r);
	if (cr.is_empty()) return;
	int stride;
	U8* data = getPixelsRW(cr, &stride);
	U8* mask = (U8*) mask_;
	int w = cr.width();
	int h = cr.height();
	int bpp = getPF().bpp;
	int pixelStride = r.width();
	int maskStride = (r.width() + 7) / 8;

	Point offset = Point(cr.tl.x-r.tl.x, cr.tl.y-r.tl.y);
	mask += offset.y * maskStride;
	for (int y = 0; y < h; y++) {
	int cy = offset.y + y;
	for (int x = 0; x < w; x++) {
	int cx = offset.x + x;
	U8* byte = mask + (cx / 8);
	int bit = 7 - cx % 8;
	if ((*byte) & (1 << bit)) {
	switch (bpp) {
	case 8:
	((U8)data)[y stride + x] = ((U8)pixels)[cy pixelStride + cx];
	break;
	case 16:
	((U16)data)[y stride + x] = ((U16)pixels)[cy pixelStride + cx];
	break;
	case 32:
	((U32)data)[y stride + x] = ((U32)pixels)[cy pixelStride + cx];
	break;
	}
	}
	}
	mask += maskStride;
	}
	}

	void FullFramePixelBuffer::maskRect(const Rect& r, Pixel pixel, const void* mask_) {
	Rect cr = getRect().intersect(r);
	if (cr.is_empty()) return;
	int stride;
	U8* data = getPixelsRW(cr, &stride);
	U8* mask = (U8*) mask_;
	int w = cr.width();
	int h = cr.height();
	int bpp = getPF().bpp;
	int maskStride = (r.width() + 7) / 8;

	Point offset = Point(cr.tl.x-r.tl.x, cr.tl.y-r.tl.y);
	mask += offset.y * maskStride;
	for (int y = 0; y < h; y++) {
	for (int x = 0; x < w; x++) {
	int cx = offset.x + x;
	U8* byte = mask + (cx / 8);
	int bit = 7 - cx % 8;
	if ((*byte) & (1 << bit)) {
	switch (bpp) {
	case 8:
	((U8)data)[y stride + x] = pixel;
	break;
	case 16:
	((U16)data)[y stride + x] = pixel;
	break;
	case 32:
	((U32)data)[y stride + x] = pixel;
	break;
	}
	}
	}
	mask += maskStride;
	}
	}

	void FullFramePixelBuffer::copyRect(const Rect &rect, const Point &move_by_delta) {
	int stride;
	U8* data = getPixelsRW(getRect(), &stride);
	// We assume that the specified rectangle is pre-clipped to the buffer
	unsigned int bytesPerPixel, bytesPerRow, bytesPerMemCpy;
	Rect srect = rect.translate(move_by_delta.negate());
	bytesPerPixel = getPF().bpp/8;
	bytesPerRow = stride * bytesPerPixel;
	bytesPerMemCpy = rect.width() * bytesPerPixel;
	if (move_by_delta.y <= 0) {
	U8* dest = data + rect.tl.xbytesPerPixel + rect.tl.ybytesPerRow;
	U8* src = data + srect.tl.xbytesPerPixel + srect.tl.ybytesPerRow;
	for (int i=rect.tl.y; i<rect.br.y; i++) {
	memmove(dest, src, bytesPerMemCpy);
	dest += bytesPerRow;
	src += bytesPerRow;
	}
	} else {
	U8* dest = data + rect.tl.xbytesPerPixel + (rect.br.y-1)bytesPerRow;
	U8* src = data + srect.tl.xbytesPerPixel + (srect.br.y-1)bytesPerRow;
	for (int i=rect.tl.y; i<rect.br.y; i++) {
	memmove(dest, src, bytesPerMemCpy);
	dest -= bytesPerRow;
	src -= bytesPerRow;
	}
	}
	}


	// -=- Managed pixel buffer class
	// Automatically allocates enough space for the specified format & area

	ManagedPixelBuffer::ManagedPixelBuffer()
	: datasize(0), own_colourmap(false)
	{
	checkDataSize();
	};

	ManagedPixelBuffer::ManagedPixelBuffer(const PixelFormat& pf, int w, int h)
	: FullFramePixelBuffer(pf, w, h, 0, 0), datasize(0), own_colourmap(false)
	{
	checkDataSize();
	};

	ManagedPixelBuffer::~ManagedPixelBuffer() {
	if (data) delete [] data;
	if (colourmap && own_colourmap) delete colourmap;
	};


	void
	ManagedPixelBuffer::setPF(const PixelFormat &pf) {
	format = pf; checkDataSize();
	};
	void
	ManagedPixelBuffer::setSize(int w, int h) {
	width_ = w; height_ = h; checkDataSize();
	};


	void
	ManagedPixelBuffer::setColourMap(ColourMap* cm, bool own_cm) {
	if (colourmap && own_colourmap) delete colourmap;
	colourmap = cm;
	own_colourmap = own_cm;
	}

	inline void
	ManagedPixelBuffer::checkDataSize() {
	unsigned long new_datasize = width_ * height_ * (format.bpp/8);
	if (datasize < new_datasize) {
	vlog.debug("reallocating managed buffer (%dx%d)", width_, height_);
	if (data) {
	delete [] data;
	datasize = 0; data = 0;
	}
	if (new_datasize) {
	data = new U8[new_datasize];
	if (!data)
	throw Exception("rfb::ManagedPixelBuffer unable to allocate buffer");
	datasize = new_datasize;
	}
	}
	};