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/**
* HEVC Encoder
* - Marko Viitanen ( fador at iki . fi ) , Tampere University of Technology , Department of Pervasive Computing .
*/
/*! \file search.c
\ brief searching
\ author Marko Viitanen
\ date 2013 - 04
Search related functions
*/
# include <stdio.h>
# include <stdlib.h>
# include <string.h>
# include "global.h"
# include "config.h"
# include "bitstream.h"
# include "picture.h"
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# include "intra.h"
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# include "encoder.h"
# include "filter.h"
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# include "search.h"
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void search_buildReferenceBorder ( picture * pic , int32_t xCtb , int32_t yCtb , int16_t outwidth , int16_t * dst , int32_t dststride , int8_t chroma )
{
int32_t leftColumn ; /*!< left column iterator */
int16_t val ; /*!< variable to store extrapolated value */
int32_t i ; /*!< index iterator */
int16_t dcVal = 1 < < ( g_bitDepth - 1 ) ; /*!< default predictor value */
int32_t topRow ; /*!< top row iterator */
int32_t srcWidth = ( pic - > width > > ( chroma ? 1 : 0 ) ) ; /*!< source picture width */
int32_t srcHeight = ( pic - > height > > ( chroma ? 1 : 0 ) ) ; /*!< source picture height */
uint8_t * srcPic = ( ! chroma ) ? pic - > yData : ( ( chroma = = 1 ) ? pic - > uData : pic - > vData ) ; /*!< input picture pointer */
int16_t SCU_width = LCU_WIDTH > > ( MAX_DEPTH + ( chroma ? 1 : 0 ) ) ; /*!< Smallest Coding Unit width */
uint8_t * srcShifted = & srcPic [ xCtb * SCU_width + ( yCtb * SCU_width ) * srcWidth ] ; /*!< input picture pointer shifted to start from the left-top corner of the current block */
int32_t width_in_SCU = srcWidth / SCU_width ; /*!< picture width in SCU */
/* Fill left column */
if ( xCtb )
{
/* Loop SCU's */
for ( leftColumn = 1 ; leftColumn < outwidth / SCU_width ; leftColumn + + )
{
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/* If over the picture height or block not yet searched, stop */
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if ( ( yCtb + leftColumn ) * SCU_width > = srcHeight | | pic - > CU [ 0 ] [ xCtb - 1 + ( yCtb + leftColumn ) * width_in_SCU ] . type = = CU_NOTSET )
{
break ;
}
}
/* Copy the pixels to output */
for ( i = 0 ; i < leftColumn * SCU_width - 1 ; i + + )
{
dst [ ( i + 1 ) * dststride ] = srcShifted [ i * srcWidth - 1 ] ;
}
/* if the loop was not completed, extrapolate the last pixel pushed to output */
if ( leftColumn ! = outwidth / SCU_width )
{
val = srcShifted [ ( leftColumn * SCU_width - 1 ) * srcWidth - 1 ] ;
for ( i = ( leftColumn * SCU_width ) ; i < outwidth ; i + + )
{
dst [ i * dststride ] = val ;
}
}
}
/* If left column not available, copy from toprow or use the default predictor */
else
{
val = yCtb ? srcShifted [ - srcWidth ] : dcVal ;
for ( i = 0 ; i < outwidth ; i + + )
{
dst [ i * dststride ] = val ;
}
}
if ( yCtb )
{
/* Loop top SCU's */
for ( topRow = 1 ; topRow < outwidth / SCU_width ; topRow + + )
{
if ( ( xCtb + topRow ) * SCU_width > = srcWidth | | pic - > CU [ 0 ] [ xCtb + topRow + ( yCtb - 1 ) * width_in_SCU ] . type = = CU_NOTSET )
{
break ;
}
}
for ( i = 0 ; i < topRow * SCU_width - 1 ; i + + )
{
dst [ i + 1 ] = srcShifted [ i - srcWidth ] ;
}
if ( topRow ! = outwidth / SCU_width )
{
val = srcShifted [ ( topRow * SCU_width ) - srcWidth - 1 ] ;
for ( i = ( topRow * SCU_width ) ; i < outwidth ; i + + )
{
dst [ i ] = val ;
}
}
}
else
{
val = xCtb ? srcShifted [ - 1 ] : dcVal ;
for ( i = 1 ; i < outwidth ; i + + )
{
dst [ i ] = val ;
}
}
/* Topleft corner */
dst [ 0 ] = ( xCtb & & yCtb ) ? srcShifted [ - srcWidth - 1 ] : dst [ dststride ] ;
}
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void search_tree ( encoder_control * encoder , uint16_t xCtb , uint16_t yCtb , uint8_t depth )
{
uint8_t border_x = ( ( encoder - > in . width ) < ( xCtb * ( LCU_WIDTH > > MAX_DEPTH ) + ( LCU_WIDTH > > depth ) ) ) ? 1 : 0 ;
uint8_t border_y = ( ( encoder - > in . height ) < ( yCtb * ( LCU_WIDTH > > MAX_DEPTH ) + ( LCU_WIDTH > > depth ) ) ) ? 1 : 0 ;
uint8_t border = border_x | border_y ; /*!< are we in any border CU */
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CU_info * cur_CU = & encoder - > in . cur_pic . CU [ depth ] [ xCtb + yCtb * ( encoder - > in . width_in_LCU < < MAX_DEPTH ) ] ;
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cur_CU - > intra . cost = 0xffffffff ;
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cur_CU - > inter . cost = 0xffffffff ;
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/* Force split on border */
if ( depth ! = MAX_DEPTH )
{
if ( border )
{
/* Split blocks and remember to change x and y block positions */
uint8_t change = 1 < < ( MAX_DEPTH - 1 - depth ) ;
SET_SPLITDATA ( cur_CU , 1 ) ;
search_tree ( encoder , xCtb , yCtb , depth + 1 ) ;
if ( ! border_x )
{
search_tree ( encoder , xCtb + change , yCtb , depth + 1 ) ;
}
if ( ! border_y )
{
search_tree ( encoder , xCtb , yCtb + change , depth + 1 ) ;
}
if ( ! border )
{
search_tree ( encoder , xCtb + change , yCtb + change , depth + 1 ) ;
}
/* We don't need to do anything else here */
return ;
}
}
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/* INTER SEARCH */
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if ( encoder - > in . cur_pic . slicetype ! = SLICE_I )
{
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/* Motion estimation on P-frame */
if ( encoder - > in . cur_pic . slicetype ! = SLICE_B )
{
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}
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cur_CU - > type = CU_INTER ;
cur_CU - > inter . mv [ 0 ] = 1 < < 2 ;
cur_CU - > inter . cost = 10 ;
return ;
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}
/* INTRA SEARCH */
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if ( depth > = MIN_SEARCH_DEPTH )
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{
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int x = 0 , y = 0 ;
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uint8_t * base = & encoder - > in . cur_pic . yData [ xCtb * ( LCU_WIDTH > > ( MAX_DEPTH ) ) + ( yCtb * ( LCU_WIDTH > > ( MAX_DEPTH ) ) ) * encoder - > in . width ] ;
uint32_t width = LCU_WIDTH > > depth ;
/* INTRAPREDICTION */
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int16_t pred [ LCU_WIDTH * LCU_WIDTH + 1 ] ;
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int16_t rec [ ( LCU_WIDTH * 2 + 8 ) * ( LCU_WIDTH * 2 + 8 ) ] ;
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//int16_t *pred = (int16_t*)malloc(LCU_WIDTH*LCU_WIDTH*sizeof(int16_t));
//int16_t *rec = (int16_t*)malloc((LCU_WIDTH*2+8)*(LCU_WIDTH*2+8)*sizeof(int16_t));
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int16_t * recShift = & rec [ ( LCU_WIDTH > > ( depth ) ) * 2 + 8 + 1 ] ;
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/* Build reconstructed block to use in prediction with extrapolated borders */
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search_buildReferenceBorder ( & encoder - > in . cur_pic , xCtb , yCtb , ( LCU_WIDTH > > ( depth ) ) * 2 + 8 , rec , ( LCU_WIDTH > > ( depth ) ) * 2 + 8 , 0 ) ;
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cur_CU - > intra . mode = ( uint8_t ) intra_prediction ( encoder - > in . cur_pic . yData , encoder - > in . width , recShift , ( LCU_WIDTH > > ( depth ) ) * 2 + 8 , xCtb * ( LCU_WIDTH > > ( MAX_DEPTH ) ) , yCtb * ( LCU_WIDTH > > ( MAX_DEPTH ) ) , width , pred , width , & cur_CU - > intra . cost ) ;
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//free(pred);
//free(rec);
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}
/* Split and search to max_depth */
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if ( depth ! = MAX_SEARCH_DEPTH )
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{
/* Split blocks and remember to change x and y block positions */
uint8_t change = 1 < < ( MAX_DEPTH - 1 - depth ) ;
search_tree ( encoder , xCtb , yCtb , depth + 1 ) ;
search_tree ( encoder , xCtb + change , yCtb , depth + 1 ) ;
search_tree ( encoder , xCtb , yCtb + change , depth + 1 ) ;
search_tree ( encoder , xCtb + change , yCtb + change , depth + 1 ) ;
}
}
uint32_t search_best_mode ( encoder_control * encoder , uint16_t xCtb , uint16_t yCtb , uint8_t depth )
{
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CU_info * cur_CU = & encoder - > in . cur_pic . CU [ depth ] [ xCtb + yCtb * ( encoder - > in . width_in_LCU < < MAX_DEPTH ) ] ;
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uint32_t bestCost = cur_CU - > intra . cost ;
uint32_t cost = 0 ;
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uint32_t lambdaCost = 4 * g_lambda_cost [ encoder - > QP ] < < 5 ;
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/* Split and search to max_depth */
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if ( depth ! = MAX_SEARCH_DEPTH )
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{
/* Split blocks and remember to change x and y block positions */
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uint8_t change = 1 < < ( MAX_DEPTH - 1 - depth ) ;
cost = search_best_mode ( encoder , xCtb , yCtb , depth + 1 ) ;
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cost + = search_best_mode ( encoder , xCtb + change , yCtb , depth + 1 ) ;
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cost + = search_best_mode ( encoder , xCtb , yCtb + change , depth + 1 ) ;
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cost + = search_best_mode ( encoder , xCtb + change , yCtb + change , depth + 1 ) ;
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/* We split if the cost is better (0 cost -> not checked) */
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if ( cost ! = 0 & & cost + lambdaCost < bestCost )
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{
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/* Set split to 1 */
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picture_setBlockSplit ( & encoder - > in . cur_pic , xCtb , yCtb , depth , 1 ) ;
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bestCost = cost + lambdaCost ;
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}
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/* Else, dont split and recursively set block mode */
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else
{
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/* Set split to 0 and mode to intra.mode */
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picture_setBlockSplit ( & encoder - > in . cur_pic , xCtb , yCtb , depth , 0 ) ;
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intra_setBlockMode ( & encoder - > in . cur_pic , xCtb , yCtb , depth , cur_CU - > intra . mode ) ;
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}
}
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else
{
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/* Set split to 0 and mode to intra.mode */
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picture_setBlockSplit ( & encoder - > in . cur_pic , xCtb , yCtb , depth , 0 ) ;
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intra_setBlockMode ( & encoder - > in . cur_pic , xCtb , yCtb , depth , cur_CU - > intra . mode ) ;
}
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return bestCost ;
}
void search_slice_data ( encoder_control * encoder )
{
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int16_t xCtb , yCtb ;
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/* Loop through every LCU in the slice */
for ( yCtb = 0 ; yCtb < encoder - > in . height_in_LCU ; yCtb + + )
{
for ( xCtb = 0 ; xCtb < encoder - > in . width_in_LCU ; xCtb + + )
{
uint8_t depth = 0 ;
/* Recursive function for looping through all the sub-blocks */
search_tree ( encoder , xCtb < < MAX_DEPTH , yCtb < < MAX_DEPTH , depth ) ;
/* Decide actual coding modes */
search_best_mode ( encoder , xCtb < < MAX_DEPTH , yCtb < < MAX_DEPTH , depth ) ;
}
}
}