MultiSource/Applications/JM/lencod/output.c - llvm-test-suite - Git at Google


 /*!
  ************************************************************************
  * \file output.c
  *
  * \brief
  *    Output an image and Trance support
  *
  * \author
  *    Main contributors (see contributors.h for copyright, address and affiliation details)
  *    - Karsten Suehring               <suehring@hhi.de>
  ************************************************************************
  */

 #include "contributors.h"

 #include <stdlib.h>
 #include <assert.h>
 #include <string.h>

 #include "global.h"
 #include "image.h"

 void write_out_picture(StorablePicture *p, int p_out);

 FrameStore* out_buffer;


 /*!
  ************************************************************************
  * \brief
  *      checks if the System is big- or little-endian
  * \return
  *      0, little-endian (e.g. Intel architectures)
  *      1, big-endian (e.g. SPARC, MIPS, PowerPC)
  ************************************************************************
  */
 int testEndian()
 {
   short s;
   byte *p;

   p=(byte*)&s;

   s=1;

   return (*p==0);
 }


 /*!
  ************************************************************************
  * \brief
  *    Convert image plane to temporary buffer for file writing
  * \param imgX
  *    Pointer to image plane
  * \param buf
  *    Buffer for file output
  * \param size_x
  *    horizontal size
  * \param size_y
  *    vertical size
  * \param symbol_size_in_bytes
  *    number of bytes used per pel
  * \param crop_left
  *    pixels to crop from left
  * \param crop_right
  *    pixels to crop from right
  * \param crop_top
  *    pixels to crop from top
  * \param crop_bottom
  *    pixels to crop from bottom
  ************************************************************************
  */
 void img2buf (imgpel** imgX, unsigned char* buf, int size_x, int size_y, int symbol_size_in_bytes, int crop_left, int crop_right, int crop_top, int crop_bottom)
 {
   int i,j;

   int twidth  = size_x - crop_left - crop_right;
   int theight = size_y - crop_top - crop_bottom;

   int size = 0;

   unsigned char  ui8;
   unsigned short tmp16, ui16;
   unsigned long  tmp32, ui32;

   if (( sizeof(char) == sizeof (imgpel)) && ( sizeof(char) == symbol_size_in_bytes))
   {
     // imgpel == pixel_in_file == 1 byte -> simple copy
     for(i=0;i<theight;i++)
       memcpy(buf+crop_left+(i*twidth),&(imgX[i+crop_top][crop_left]), twidth);
   }
   else
   {
     // sizeof (imgpel) > sizeof(char)
     if (testEndian())
     {
       // big endian
       switch (symbol_size_in_bytes)
       {
       case 1:
         {
           for(i=crop_top;i<size_y-crop_bottom;i++)
             for(j=crop_left;j<size_x-crop_right;j++)
             {
               ui8 = (unsigned char) (imgX[i][j]);
               buf[(j-crop_left+((i-crop_top)*(twidth)))] = ui8;
             }
           break;
         }
       case 2:
         {
           for(i=crop_top;i<size_y-crop_bottom;i++)
             for(j=crop_left;j<size_x-crop_right;j++)
             {
               tmp16 = (unsigned short) (imgX[i][j]);
               ui16  = (tmp16 >> 8) | ((tmp16&0xFF)<<8);
               memcpy(buf+((j-crop_left+((i-crop_top)*(twidth)))*2),&(ui16), 2);
             }
           break;
         }
       case 4:
         {
           for(i=crop_top;i<size_y-crop_bottom;i++)
             for(j=crop_left;j<size_x-crop_right;j++)
             {
               tmp32 = (unsigned long) (imgX[i][j]);
               ui32  = ((tmp32&0xFF00)<<8) | ((tmp32&0xFF)<<24) | ((tmp32&0xFF0000)>>8) | ((tmp32&0xFF000000)>>24);
               memcpy(buf+((j-crop_left+((i-crop_top)*(twidth)))*4),&(ui32), 4);
             }
           break;
         }
       default:
         {
            error ("writing only to formats of 8, 16 or 32 bit allowed on big endian architecture", 500);
            break;
         }
       }

     }
     else
     {
       // little endian
       if (sizeof (imgpel) < symbol_size_in_bytes)
       {
         // this should not happen. we should not have smaller imgpel than our source material.
         size = sizeof (imgpel);
         // clear buffer
         memset (buf, 0, (twidth*theight*symbol_size_in_bytes));
       }
       else
       {
         size = symbol_size_in_bytes;
       }

       for(i=crop_top;i<size_y-crop_bottom;i++)
         for(j=crop_left;j<size_x-crop_right;j++)
         {
           memcpy(buf+((j-crop_left+((i-crop_top)*(twidth)))*symbol_size_in_bytes),&(imgX[i][j]), size);
         }

     }
   }
 }

 /*!
  ************************************************************************
  * \brief
  *    Writes out a storable picture without doing any output modifications
  * \param p
  *    Picture to be written
  * \param p_out
  *    Output file
  * \param real_structure
  *    real picture structure
  ************************************************************************
  */
 void write_picture(StorablePicture *p, int p_out, int real_structure)
 {
   write_out_picture(p, p_out);
 }

 /*!
  ************************************************************************
  * \brief
  *    Writes out a storable picture
  * \param p
  *    Picture to be written
  * \param p_out
  *    Output file
  ************************************************************************
  */
 void write_out_picture(StorablePicture *p, int p_out)
 {
   int SubWidthC  [4]= { 1, 2, 2, 1};
   int SubHeightC [4]= { 1, 2, 1, 1};

   int crop_left, crop_right, crop_top, crop_bottom;
   int symbol_size_in_bytes = img->pic_unit_size_on_disk/8;
   Boolean rgb_output = (Boolean) (input->rgb_input_flag != 0 && input->yuv_format==3);
   unsigned char *buf;

   if (p->non_existing)
     return;
   if (p_out == -1)
     return;

   if (p->frame_cropping_flag)
   {
     crop_left   = SubWidthC[p->chroma_format_idc] * p->frame_cropping_rect_left_offset;
     crop_right  = SubWidthC[p->chroma_format_idc] * p->frame_cropping_rect_right_offset;
     crop_top    = SubHeightC[p->chroma_format_idc]*( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_top_offset;
     crop_bottom = SubHeightC[p->chroma_format_idc]*( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_bottom_offset;
   }
   else
   {
     crop_left = crop_right = crop_top = crop_bottom = 0;
   }

   //printf ("write frame size: %dx%d\n", p->size_x-crop_left-crop_right,p->size_y-crop_top-crop_bottom );

   // KS: this buffer should actually be allocated only once, but this is still much faster than the previous version
   buf = malloc (p->size_x*p->size_y*symbol_size_in_bytes);
   if (NULL==buf)
   {
     no_mem_exit("write_out_picture: buf");
   }

   if(rgb_output)
   {
     crop_left   = p->frame_cropping_rect_left_offset;
     crop_right  = p->frame_cropping_rect_right_offset;
     crop_top    = ( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_top_offset;
     crop_bottom = ( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_bottom_offset;

     img2buf (p->imgUV[1], buf, p->size_x_cr, p->size_y_cr, symbol_size_in_bytes, crop_left, crop_right, crop_top, crop_bottom);
     write(p_out, buf, (p->size_y_cr-crop_bottom-crop_top)*(p->size_x_cr-crop_right-crop_left)*symbol_size_in_bytes);

     if (p->frame_cropping_flag)
     {
       crop_left   = SubWidthC[p->chroma_format_idc] * p->frame_cropping_rect_left_offset;
       crop_right  = SubWidthC[p->chroma_format_idc] * p->frame_cropping_rect_right_offset;
       crop_top    = SubHeightC[p->chroma_format_idc]*( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_top_offset;
       crop_bottom = SubHeightC[p->chroma_format_idc]*( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_bottom_offset;
     }
     else
     {
       crop_left = crop_right = crop_top = crop_bottom = 0;
     }
   }

   img2buf (p->imgY, buf, p->size_x, p->size_y, symbol_size_in_bytes, crop_left, crop_right, crop_top, crop_bottom);
   write(p_out, buf, (p->size_y-crop_bottom-crop_top)*(p->size_x-crop_right-crop_left)*symbol_size_in_bytes);

   if (p->chroma_format_idc!=YUV400)
   {
     crop_left   = p->frame_cropping_rect_left_offset;
     crop_right  = p->frame_cropping_rect_right_offset;
     crop_top    = ( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_top_offset;
     crop_bottom = ( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_bottom_offset;

     img2buf (p->imgUV[0], buf, p->size_x_cr, p->size_y_cr, symbol_size_in_bytes, crop_left, crop_right, crop_top, crop_bottom);
     write(p_out, buf, (p->size_y_cr-crop_bottom-crop_top)*(p->size_x_cr-crop_right-crop_left)* symbol_size_in_bytes);

     if (!rgb_output)
     {
       img2buf (p->imgUV[1], buf, p->size_x_cr, p->size_y_cr, symbol_size_in_bytes, crop_left, crop_right, crop_top, crop_bottom);
       write(p_out, buf, (p->size_y_cr-crop_bottom-crop_top)*(p->size_x_cr-crop_right-crop_left)*symbol_size_in_bytes);
     }
   }

   free(buf);

 //  fsync(p_out);
 }

 /*!
  ************************************************************************
  * \brief
  *    Initialize output buffer for direct output
  ************************************************************************
  */
 void init_out_buffer()
 {
   out_buffer = alloc_frame_store();
 }

 /*!
  ************************************************************************
  * \brief
  *    Uninitialize output buffer for direct output
  ************************************************************************
  */
 void uninit_out_buffer()
 {
   free_frame_store(out_buffer);
   out_buffer=NULL;
 }

 /*!
  ************************************************************************
  * \brief
  *    Initialize picture memory with (Y:0,U:128,V:128)
  ************************************************************************
  */
 void clear_picture(StorablePicture *p)
 {
   int i;

   for(i=0;i<p->size_y;i++)
     memset(p->imgY[i], img->dc_pred_value_luma, p->size_x*sizeof(imgpel));
   for(i=0;i<p->size_y_cr;i++)
     memset(p->imgUV[0][i], img->dc_pred_value_chroma, p->size_x_cr*sizeof(imgpel));
   for(i=0;i<p->size_y_cr;i++)
     memset(p->imgUV[1][i], img->dc_pred_value_chroma, p->size_x_cr*sizeof(imgpel));
 }

 /*!
  ************************************************************************
  * \brief
  *    Write out not paired direct output fields. A second empty field is generated
  *    and combined into the frame buffer.
  * \param fs
  *    FrameStore that contains a single field
  * \param p_out
  *    Output file
  ************************************************************************
  */
 void write_unpaired_field(FrameStore* fs, int p_out)
 {
   StorablePicture *p;
   assert (fs->is_used<3);
   if(fs->is_used &1)
   {
     // we have a top field
     // construct an empty bottom field
     p = fs->top_field;
     fs->bottom_field = alloc_storable_picture(BOTTOM_FIELD, p->size_x, p->size_y, p->size_x_cr, p->size_y_cr);
     fs->bottom_field->chroma_format_idc = p->chroma_format_idc;
     clear_picture(fs->bottom_field);
     dpb_combine_field_yuv(fs);
     write_picture (fs->frame, p_out, TOP_FIELD);
   }

   if(fs->is_used &2)
   {
     // we have a bottom field
     // construct an empty top field
     p = fs->bottom_field;
     fs->top_field = alloc_storable_picture(TOP_FIELD, p->size_x, p->size_y, p->size_x_cr, p->size_y_cr);
     clear_picture(fs->top_field);
     fs->top_field->chroma_format_idc = p->chroma_format_idc;
     clear_picture(fs->top_field);
     fs ->top_field->frame_cropping_flag = fs->bottom_field->frame_cropping_flag;
     if(fs ->top_field->frame_cropping_flag)
     {
       fs ->top_field->frame_cropping_rect_top_offset = fs->bottom_field->frame_cropping_rect_top_offset;
       fs ->top_field->frame_cropping_rect_bottom_offset = fs->bottom_field->frame_cropping_rect_bottom_offset;
       fs ->top_field->frame_cropping_rect_left_offset = fs->bottom_field->frame_cropping_rect_left_offset;
       fs ->top_field->frame_cropping_rect_right_offset = fs->bottom_field->frame_cropping_rect_right_offset;
     }
     dpb_combine_field_yuv(fs);
     write_picture (fs->frame, p_out, BOTTOM_FIELD);
   }

   fs->is_used=3;
 }

 /*!
  ************************************************************************
  * \brief
  *    Write out unpaired fields from output buffer.
  * \param p_out
  *    Output file
  ************************************************************************
  */
 void flush_direct_output(int p_out)
 {
   write_unpaired_field(out_buffer, p_out);

   free_storable_picture(out_buffer->frame);
   out_buffer->frame = NULL;
   free_storable_picture(out_buffer->top_field);
   out_buffer->top_field = NULL;
   free_storable_picture(out_buffer->bottom_field);
   out_buffer->bottom_field = NULL;
   out_buffer->is_used = 0;
 }


 /*!
  ************************************************************************
  * \brief
  *    Write a frame (from FrameStore)
  * \param fs
  *    FrameStore containing the frame
  * \param p_out
  *    Output file
  ************************************************************************
  */
 void write_stored_frame( FrameStore *fs,int p_out)
 {
   // make sure no direct output field is pending
   flush_direct_output(p_out);

   if (fs->is_used<3)
   {
     write_unpaired_field(fs, p_out);
   }
   else
   {
     write_picture(fs->frame, p_out, FRAME);
   }

   fs->is_output = 1;
 }


 /*!
  ************************************************************************
  * \brief
  *    Directly output a picture without storing it in the DPB. Fields
  *    are buffered before they are written to the file.
  * \param p
  *    Picture for output
  * \param p_out
  *    Output file
  ************************************************************************
  */
 void direct_output(StorablePicture *p, int p_out)
 {
   if (p->structure==FRAME)
   {
     // we have a frame (or complementary field pair)
     // so output it directly
     flush_direct_output(p_out);
     write_picture (p, p_out, FRAME);
     free_storable_picture(p);
     return;
   }

   if (p->structure == TOP_FIELD)
   {
     if (out_buffer->is_used &1)
       flush_direct_output(p_out);
     out_buffer->top_field = p;
     out_buffer->is_used |= 1;
   }

   if (p->structure == BOTTOM_FIELD)
   {
     if (out_buffer->is_used &2)
       flush_direct_output(p_out);
     out_buffer->bottom_field = p;
     out_buffer->is_used |= 2;
   }

   if (out_buffer->is_used == 3)
   {
     // we have both fields, so output them
     dpb_combine_field_yuv(out_buffer);
     write_picture (out_buffer->frame, p_out, FRAME);
     free_storable_picture(out_buffer->frame);
     out_buffer->frame = NULL;
     free_storable_picture(out_buffer->top_field);
     out_buffer->top_field = NULL;
     free_storable_picture(out_buffer->bottom_field);
     out_buffer->bottom_field = NULL;
     out_buffer->is_used = 0;
   }
 }


 /*!
 ************************************************************************
 * \brief
 *    For adaptive frame/field coding remove dangling top field from direct
 *    output frame version instead.
 * \param p
 *    Picture for output
 * \param p_out
 *    Output file
 ************************************************************************
 */
 void direct_output_paff(StorablePicture *p, int p_out)
 {
   printf("Warning!!! Frame can't fit in DPB. Displayed out of sequence.\n");
   free_storable_picture(out_buffer->frame);
   out_buffer->frame = NULL;
   free_storable_picture(out_buffer->top_field);
   out_buffer->top_field = NULL;
   free_storable_picture(out_buffer->bottom_field);
   out_buffer->bottom_field = NULL;
   out_buffer->is_used = 0;

   direct_output(p, p_out);
 }

	/*!
	************************************************************************
	* \file output.c
	*
	* \brief
	* Output an image and Trance support
	*
	* \author
	* Main contributors (see contributors.h for copyright, address and affiliation details)
	* - Karsten Suehring <suehring@hhi.de>
	************************************************************************
	*/

	#include "contributors.h"

	#include <stdlib.h>
	#include <assert.h>
	#include <string.h>

	#include "global.h"
	#include "image.h"

	void write_out_picture(StorablePicture *p, int p_out);

	FrameStore* out_buffer;


	/*!
	************************************************************************
	* \brief
	* checks if the System is big- or little-endian
	* \return
	* 0, little-endian (e.g. Intel architectures)
	* 1, big-endian (e.g. SPARC, MIPS, PowerPC)
	************************************************************************
	*/
	int testEndian()
	{
	short s;
	byte *p;

	p=(byte*)&s;

	s=1;

	return (*p==0);
	}


	/*!
	************************************************************************
	* \brief
	* Convert image plane to temporary buffer for file writing
	* \param imgX
	* Pointer to image plane
	* \param buf
	* Buffer for file output
	* \param size_x
	* horizontal size
	* \param size_y
	* vertical size
	* \param symbol_size_in_bytes
	* number of bytes used per pel
	* \param crop_left
	* pixels to crop from left
	* \param crop_right
	* pixels to crop from right
	* \param crop_top
	* pixels to crop from top
	* \param crop_bottom
	* pixels to crop from bottom
	************************************************************************
	*/
	void img2buf (imgpel** imgX, unsigned char* buf, int size_x, int size_y, int symbol_size_in_bytes, int crop_left, int crop_right, int crop_top, int crop_bottom)
	{
	int i,j;

	int twidth = size_x - crop_left - crop_right;
	int theight = size_y - crop_top - crop_bottom;

	int size = 0;

	unsigned char ui8;
	unsigned short tmp16, ui16;
	unsigned long tmp32, ui32;

	if (( sizeof(char) == sizeof (imgpel)) && ( sizeof(char) == symbol_size_in_bytes))
	{
	// imgpel == pixel_in_file == 1 byte -> simple copy
	for(i=0;i<theight;i++)
	memcpy(buf+crop_left+(i*twidth),&(imgX[i+crop_top][crop_left]), twidth);
	}
	else
	{
	// sizeof (imgpel) > sizeof(char)
	if (testEndian())
	{
	// big endian
	switch (symbol_size_in_bytes)
	{
	case 1:
	{
	for(i=crop_top;i<size_y-crop_bottom;i++)
	for(j=crop_left;j<size_x-crop_right;j++)
	{
	ui8 = (unsigned char) (imgX[i][j]);
	buf[(j-crop_left+((i-crop_top)*(twidth)))] = ui8;
	}
	break;
	}
	case 2:
	{
	for(i=crop_top;i<size_y-crop_bottom;i++)
	for(j=crop_left;j<size_x-crop_right;j++)
	{
	tmp16 = (unsigned short) (imgX[i][j]);
	ui16 = (tmp16 >> 8) \| ((tmp16&0xFF)<<8);
	memcpy(buf+((j-crop_left+((i-crop_top)(twidth)))2),&(ui16), 2);
	}
	break;
	}
	case 4:
	{
	for(i=crop_top;i<size_y-crop_bottom;i++)
	for(j=crop_left;j<size_x-crop_right;j++)
	{
	tmp32 = (unsigned long) (imgX[i][j]);
	ui32 = ((tmp32&0xFF00)<<8) \| ((tmp32&0xFF)<<24) \| ((tmp32&0xFF0000)>>8) \| ((tmp32&0xFF000000)>>24);
	memcpy(buf+((j-crop_left+((i-crop_top)(twidth)))4),&(ui32), 4);
	}
	break;
	}
	default:
	{
	error ("writing only to formats of 8, 16 or 32 bit allowed on big endian architecture", 500);
	break;
	}
	}

	}
	else
	{
	// little endian
	if (sizeof (imgpel) < symbol_size_in_bytes)
	{
	// this should not happen. we should not have smaller imgpel than our source material.
	size = sizeof (imgpel);
	// clear buffer
	memset (buf, 0, (twidththeightsymbol_size_in_bytes));
	}
	else
	{
	size = symbol_size_in_bytes;
	}

	for(i=crop_top;i<size_y-crop_bottom;i++)
	for(j=crop_left;j<size_x-crop_right;j++)
	{
	memcpy(buf+((j-crop_left+((i-crop_top)(twidth)))symbol_size_in_bytes),&(imgX[i][j]), size);
	}

	}
	}
	}

	/*!
	************************************************************************
	* \brief
	* Writes out a storable picture without doing any output modifications
	* \param p
	* Picture to be written
	* \param p_out
	* Output file
	* \param real_structure
	* real picture structure
	************************************************************************
	*/
	void write_picture(StorablePicture *p, int p_out, int real_structure)
	{
	write_out_picture(p, p_out);
	}

	/*!
	************************************************************************
	* \brief
	* Writes out a storable picture
	* \param p
	* Picture to be written
	* \param p_out
	* Output file
	************************************************************************
	*/
	void write_out_picture(StorablePicture *p, int p_out)
	{
	int SubWidthC [4]= { 1, 2, 2, 1};
	int SubHeightC [4]= { 1, 2, 1, 1};

	int crop_left, crop_right, crop_top, crop_bottom;
	int symbol_size_in_bytes = img->pic_unit_size_on_disk/8;
	Boolean rgb_output = (Boolean) (input->rgb_input_flag != 0 && input->yuv_format==3);
	unsigned char *buf;

	if (p->non_existing)
	return;
	if (p_out == -1)
	return;

	if (p->frame_cropping_flag)
	{
	crop_left = SubWidthC[p->chroma_format_idc] * p->frame_cropping_rect_left_offset;
	crop_right = SubWidthC[p->chroma_format_idc] * p->frame_cropping_rect_right_offset;
	crop_top = SubHeightC[p->chroma_format_idc]( 2 - p->frame_mbs_only_flag ) p->frame_cropping_rect_top_offset;
	crop_bottom = SubHeightC[p->chroma_format_idc]( 2 - p->frame_mbs_only_flag ) p->frame_cropping_rect_bottom_offset;
	}
	else
	{
	crop_left = crop_right = crop_top = crop_bottom = 0;
	}

	//printf ("write frame size: %dx%d\n", p->size_x-crop_left-crop_right,p->size_y-crop_top-crop_bottom );

	// KS: this buffer should actually be allocated only once, but this is still much faster than the previous version
	buf = malloc (p->size_xp->size_ysymbol_size_in_bytes);
	if (NULL==buf)
	{
	no_mem_exit("write_out_picture: buf");
	}

	if(rgb_output)
	{
	crop_left = p->frame_cropping_rect_left_offset;
	crop_right = p->frame_cropping_rect_right_offset;
	crop_top = ( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_top_offset;
	crop_bottom = ( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_bottom_offset;

	img2buf (p->imgUV[1], buf, p->size_x_cr, p->size_y_cr, symbol_size_in_bytes, crop_left, crop_right, crop_top, crop_bottom);
	write(p_out, buf, (p->size_y_cr-crop_bottom-crop_top)(p->size_x_cr-crop_right-crop_left)symbol_size_in_bytes);

	if (p->frame_cropping_flag)
	{
	crop_left = SubWidthC[p->chroma_format_idc] * p->frame_cropping_rect_left_offset;
	crop_right = SubWidthC[p->chroma_format_idc] * p->frame_cropping_rect_right_offset;
	crop_top = SubHeightC[p->chroma_format_idc]( 2 - p->frame_mbs_only_flag ) p->frame_cropping_rect_top_offset;
	crop_bottom = SubHeightC[p->chroma_format_idc]( 2 - p->frame_mbs_only_flag ) p->frame_cropping_rect_bottom_offset;
	}
	else
	{
	crop_left = crop_right = crop_top = crop_bottom = 0;
	}
	}

	img2buf (p->imgY, buf, p->size_x, p->size_y, symbol_size_in_bytes, crop_left, crop_right, crop_top, crop_bottom);
	write(p_out, buf, (p->size_y-crop_bottom-crop_top)(p->size_x-crop_right-crop_left)symbol_size_in_bytes);

	if (p->chroma_format_idc!=YUV400)
	{
	crop_left = p->frame_cropping_rect_left_offset;
	crop_right = p->frame_cropping_rect_right_offset;
	crop_top = ( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_top_offset;
	crop_bottom = ( 2 - p->frame_mbs_only_flag ) * p->frame_cropping_rect_bottom_offset;

	img2buf (p->imgUV[0], buf, p->size_x_cr, p->size_y_cr, symbol_size_in_bytes, crop_left, crop_right, crop_top, crop_bottom);
	write(p_out, buf, (p->size_y_cr-crop_bottom-crop_top)(p->size_x_cr-crop_right-crop_left) symbol_size_in_bytes);

	if (!rgb_output)
	{
	img2buf (p->imgUV[1], buf, p->size_x_cr, p->size_y_cr, symbol_size_in_bytes, crop_left, crop_right, crop_top, crop_bottom);
	write(p_out, buf, (p->size_y_cr-crop_bottom-crop_top)(p->size_x_cr-crop_right-crop_left)symbol_size_in_bytes);
	}
	}

	free(buf);

	// fsync(p_out);
	}

	/*!
	************************************************************************
	* \brief
	* Initialize output buffer for direct output
	************************************************************************
	*/
	void init_out_buffer()
	{
	out_buffer = alloc_frame_store();
	}

	/*!
	************************************************************************
	* \brief
	* Uninitialize output buffer for direct output
	************************************************************************
	*/
	void uninit_out_buffer()
	{
	free_frame_store(out_buffer);
	out_buffer=NULL;
	}

	/*!
	************************************************************************
	* \brief
	* Initialize picture memory with (Y:0,U:128,V:128)
	************************************************************************
	*/
	void clear_picture(StorablePicture *p)
	{
	int i;

	for(i=0;i<p->size_y;i++)
	memset(p->imgY[i], img->dc_pred_value_luma, p->size_x*sizeof(imgpel));
	for(i=0;i<p->size_y_cr;i++)
	memset(p->imgUV[0][i], img->dc_pred_value_chroma, p->size_x_cr*sizeof(imgpel));
	for(i=0;i<p->size_y_cr;i++)
	memset(p->imgUV[1][i], img->dc_pred_value_chroma, p->size_x_cr*sizeof(imgpel));
	}

	/*!
	************************************************************************
	* \brief
	* Write out not paired direct output fields. A second empty field is generated
	* and combined into the frame buffer.
	* \param fs
	* FrameStore that contains a single field
	* \param p_out
	* Output file
	************************************************************************
	*/
	void write_unpaired_field(FrameStore* fs, int p_out)
	{
	StorablePicture *p;
	assert (fs->is_used<3);
	if(fs->is_used &1)
	{
	// we have a top field
	// construct an empty bottom field
	p = fs->top_field;
	fs->bottom_field = alloc_storable_picture(BOTTOM_FIELD, p->size_x, p->size_y, p->size_x_cr, p->size_y_cr);
	fs->bottom_field->chroma_format_idc = p->chroma_format_idc;
	clear_picture(fs->bottom_field);
	dpb_combine_field_yuv(fs);
	write_picture (fs->frame, p_out, TOP_FIELD);
	}

	if(fs->is_used &2)
	{
	// we have a bottom field
	// construct an empty top field
	p = fs->bottom_field;
	fs->top_field = alloc_storable_picture(TOP_FIELD, p->size_x, p->size_y, p->size_x_cr, p->size_y_cr);
	clear_picture(fs->top_field);
	fs->top_field->chroma_format_idc = p->chroma_format_idc;
	clear_picture(fs->top_field);
	fs ->top_field->frame_cropping_flag = fs->bottom_field->frame_cropping_flag;
	if(fs ->top_field->frame_cropping_flag)
	{
	fs ->top_field->frame_cropping_rect_top_offset = fs->bottom_field->frame_cropping_rect_top_offset;
	fs ->top_field->frame_cropping_rect_bottom_offset = fs->bottom_field->frame_cropping_rect_bottom_offset;
	fs ->top_field->frame_cropping_rect_left_offset = fs->bottom_field->frame_cropping_rect_left_offset;
	fs ->top_field->frame_cropping_rect_right_offset = fs->bottom_field->frame_cropping_rect_right_offset;
	}
	dpb_combine_field_yuv(fs);
	write_picture (fs->frame, p_out, BOTTOM_FIELD);
	}

	fs->is_used=3;
	}

	/*!
	************************************************************************
	* \brief
	* Write out unpaired fields from output buffer.
	* \param p_out
	* Output file
	************************************************************************
	*/
	void flush_direct_output(int p_out)
	{
	write_unpaired_field(out_buffer, p_out);

	free_storable_picture(out_buffer->frame);
	out_buffer->frame = NULL;
	free_storable_picture(out_buffer->top_field);
	out_buffer->top_field = NULL;
	free_storable_picture(out_buffer->bottom_field);
	out_buffer->bottom_field = NULL;
	out_buffer->is_used = 0;
	}


	/*!
	************************************************************************
	* \brief
	* Write a frame (from FrameStore)
	* \param fs
	* FrameStore containing the frame
	* \param p_out
	* Output file
	************************************************************************
	*/
	void write_stored_frame( FrameStore *fs,int p_out)
	{
	// make sure no direct output field is pending
	flush_direct_output(p_out);

	if (fs->is_used<3)
	{
	write_unpaired_field(fs, p_out);
	}
	else
	{
	write_picture(fs->frame, p_out, FRAME);
	}

	fs->is_output = 1;
	}


	/*!
	************************************************************************
	* \brief
	* Directly output a picture without storing it in the DPB. Fields
	* are buffered before they are written to the file.
	* \param p
	* Picture for output
	* \param p_out
	* Output file
	************************************************************************
	*/
	void direct_output(StorablePicture *p, int p_out)
	{
	if (p->structure==FRAME)
	{
	// we have a frame (or complementary field pair)
	// so output it directly
	flush_direct_output(p_out);
	write_picture (p, p_out, FRAME);
	free_storable_picture(p);
	return;
	}

	if (p->structure == TOP_FIELD)
	{
	if (out_buffer->is_used &1)
	flush_direct_output(p_out);
	out_buffer->top_field = p;
	out_buffer->is_used \|= 1;
	}

	if (p->structure == BOTTOM_FIELD)
	{
	if (out_buffer->is_used &2)
	flush_direct_output(p_out);
	out_buffer->bottom_field = p;
	out_buffer->is_used \|= 2;
	}

	if (out_buffer->is_used == 3)
	{
	// we have both fields, so output them
	dpb_combine_field_yuv(out_buffer);
	write_picture (out_buffer->frame, p_out, FRAME);
	free_storable_picture(out_buffer->frame);
	out_buffer->frame = NULL;
	free_storable_picture(out_buffer->top_field);
	out_buffer->top_field = NULL;
	free_storable_picture(out_buffer->bottom_field);
	out_buffer->bottom_field = NULL;
	out_buffer->is_used = 0;
	}
	}


	/*!
	************************************************************************
	* \brief
	* For adaptive frame/field coding remove dangling top field from direct
	* output frame version instead.
	* \param p
	* Picture for output
	* \param p_out
	* Output file
	************************************************************************
	*/
	void direct_output_paff(StorablePicture *p, int p_out)
	{
	printf("Warning!!! Frame can't fit in DPB. Displayed out of sequence.\n");
	free_storable_picture(out_buffer->frame);
	out_buffer->frame = NULL;
	free_storable_picture(out_buffer->top_field);
	out_buffer->top_field = NULL;
	free_storable_picture(out_buffer->bottom_field);
	out_buffer->bottom_field = NULL;
	out_buffer->is_used = 0;

	direct_output(p, p_out);
	}