uvg266/src/inter.c

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/**
* HEVC Encoder
* - Marko Viitanen ( fador at iki.fi ), Tampere University of Technology, Department of Pervasive Computing.
*/
/*! \file inter.c
\brief Inter functions
\author Marko Viitanen
\date 2013-04
Inter functions
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "global.h"
#include "config.h"
#include "encoder.h"
#include "picture.h"
#include "inter.h"
/*!
\brief Set block mode (and init typedata)
\param pic picture to use
\param xCtb x CU position (smallest CU)
\param yCtb y CU position (smallest CU)
\param depth current CU depth
\param mode mode to set
\returns Void
*/
void inter_setBlockMode(picture* pic,uint32_t xCtb, uint32_t yCtb, uint8_t depth, CU_info* cur_cu)
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{
uint32_t x,y,d;
/* Width in smallest CU */
int width_in_SCU = pic->width_in_LCU<<MAX_DEPTH;
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int block_SCU_width = (LCU_WIDTH>>depth)/(LCU_WIDTH>>MAX_DEPTH);
for(y = yCtb; y < yCtb+block_SCU_width; y++)
{
int CUpos = y*width_in_SCU;
for(x = xCtb; x < xCtb+block_SCU_width; x++)
{
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for(d = 0; d < MAX_DEPTH+1; d++)
{
pic->CU[d][CUpos+x].depth = depth;
pic->CU[d][CUpos+x].type = CU_INTER;
pic->CU[d][CUpos+x].inter.mode = cur_cu->inter.mode;
pic->CU[d][CUpos+x].inter.mv[0] = cur_cu->inter.mv[0];
pic->CU[d][CUpos+x].inter.mv[1] = cur_cu->inter.mv[1];
pic->CU[d][CUpos+x].inter.mv_dir = cur_cu->inter.mv_dir;
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}
}
}
}
/*!
\brief Reconstruct inter block
\param ref picture to copy the data from
\param xpos block x position
\param ypos block y position
\param width block width
\param mv[2] motion vector
\param dst destination picture
\returns Void
*/
void inter_recon(picture* ref,int32_t xpos, int32_t ypos,int32_t width, int16_t mv[2], picture* dst)
{
int x,y,coord_x,coord_y;
/* negative overflow present */
int8_t overflow_neg_x = (xpos+mv[0] < 0)?1:0;
int8_t overflow_neg_y = (ypos+mv[1] < 0)?1:0;
/* positive overflow present */
int8_t overflow_pos_x = (xpos+mv[0]+width > ref->width )?1:0;
int8_t overflow_pos_y = (ypos+mv[1]+width > ref->height)?1:0;
/* TODO: Fractional pixel support */
mv[0] = mv[0]>>2;
mv[1] = mv[1]>>2;
/* With overflow present, more checking */
if(overflow_neg_x || overflow_neg_y || overflow_pos_x || overflow_pos_y)
{
/* Copy Luma with boundary checking */
for(y = ypos; y < ypos+width; y++)
{
for(x = xpos; x < xpos+width; x++)
{
coord_x = x;
coord_y = y;
overflow_neg_x = (x < 0)?1:0;
overflow_neg_y = (y < 0)?1:0;
overflow_pos_x = (x >= ref->width )?1:0;
overflow_pos_y = (y >= ref->height)?1:0;
if(overflow_neg_x) {
coord_x = 0;
} else if(overflow_pos_x) {
coord_x = ref->width-1;
}
if(overflow_neg_y) {
coord_y = 0;
} else if(overflow_pos_y) {
coord_y = ref->height-1;
}
dst->yRecData[y*dst->width+x] = ref->yRecData[(coord_y+mv[1])*ref->width+(coord_x+mv[0])];
}
}
/* Copy Chroma with boundary checking */
for(y = ypos>>1; y < (ypos+width)>>1; y++)
{
for(x = xpos>>1; x < (xpos+width)>>1; x++)
{
coord_x = x;
coord_y = y;
overflow_neg_x = (x < 0)?1:0;
overflow_neg_y = (y < 0)?1:0;
overflow_pos_x = (x >= ref->width>>1 )?1:0;
overflow_pos_y = (y >= ref->height>>1)?1:0;
if(overflow_neg_x) {
coord_x = 0;
} else if(overflow_pos_x) {
coord_x = (ref->width>>1)-1;
}
if(overflow_neg_y) {
coord_y = 0;
} else if(overflow_pos_y) {
coord_y = (ref->height>>1)-1;
}
dst->uRecData[y*(dst->width>>1)+x] = ref->uRecData[(coord_y+(mv[1]>>1))*ref->width+(coord_x+(mv[0]>>1))];
dst->vRecData[y*(dst->width>>1)+x] = ref->vRecData[(coord_y+(mv[1]>>1))*ref->width+(coord_x+(mv[0]>>1))];
}
}
}
else
{
/* Copy Luma */
for(y = ypos; y < ypos+width; y++)
{
for(x = xpos; x < xpos+width; x++)
{
dst->yRecData[y*dst->width+x] = ref->yRecData[(y+mv[1])*ref->width+x+mv[0]];
}
}
/* Copy Chroma */
for(y = ypos>>1; y < (ypos+width)>>1; y++)
{
for(x = xpos>>1; x < (xpos+width)>>1; x++)
{
dst->uRecData[y*(dst->width>>1)+x] = ref->uRecData[(y+(mv[1]>>1))*(ref->width>>1)+x+(mv[0]>>1)];
dst->vRecData[y*(dst->width>>1)+x] = ref->vRecData[(y+(mv[1]>>1))*(ref->width>>1)+x+(mv[0]>>1)];
}
}
}
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}
/*!
\brief Get MV prediction for current block
\param encoder encoder control struct to use
\param xCtb block x position in SCU
\param yCtb block y position in SCU
\param depth current block depth
\param mv_pred[2][2] 2x motion vector prediction
\returns Void
*/
void inter_get_mv_cand(encoder_control *encoder,int32_t xCtb, int32_t yCtb,int8_t depth, int16_t mv_cand[2][2])
{
uint8_t cur_block_in_scu = (LCU_WIDTH>>depth) / CU_MIN_SIZE_PIXELS;
CU_info *cur_cu = &encoder->in.cur_pic->CU[depth][xCtb+yCtb*(encoder->in.width_in_LCU<<MAX_DEPTH)];
uint8_t candidates = 0;
/*
Predictor block locations
____ ______
|B2|______|B1|B0|
| |
| Cur CU |
__| |
|A1|_________|
|A0|
*/
CU_info *b0, *b1, *b2, *a0, *a1;
b0 = b1 = b2 = a0 = a1 = NULL;
if (xCtb != 0) {
a1 = &encoder->in.cur_pic->CU[depth][xCtb-1+(yCtb+cur_block_in_scu-1)*(encoder->in.width_in_LCU<<MAX_DEPTH)];
if(!a1->coded) a1 = NULL;
if (yCtb+cur_block_in_scu < encoder->in.height_in_LCU<<MAX_DEPTH) {
a0 = &encoder->in.cur_pic->CU[depth][xCtb-1+(yCtb+cur_block_in_scu)*(encoder->in.width_in_LCU<<MAX_DEPTH)];
if(!a0->coded) a0 = NULL;
}
}
if (yCtb != 0) {
b0 = &encoder->in.cur_pic->CU[depth][xCtb+cur_block_in_scu+(yCtb-1)*(encoder->in.width_in_LCU<<MAX_DEPTH)];
if (!b0->coded) b0 = NULL;
b1 = &encoder->in.cur_pic->CU[depth][xCtb+cur_block_in_scu-1+(yCtb-1)*(encoder->in.width_in_LCU<<MAX_DEPTH)];
if (!b1->coded) b1 = NULL;
if (xCtb != 0) {
b2 = &encoder->in.cur_pic->CU[depth][xCtb-1+(yCtb-1)*(encoder->in.width_in_LCU<<MAX_DEPTH)];
if(!b2->coded) b2 = NULL;
}
}
/* Left predictors */
if (a0 && a0->type == CU_INTER) {
mv_cand[candidates][0] = a0->inter.mv[0];
mv_cand[candidates][1] = a0->inter.mv[1];
candidates++;
} else if (a1 && a1->type == CU_INTER) {
mv_cand[candidates][0] = a1->inter.mv[0];
mv_cand[candidates][1] = a1->inter.mv[1];
candidates++;
}
/* Top predictors */
if (b0 && b0->type == CU_INTER) {
mv_cand[candidates][0] = b0->inter.mv[0];
mv_cand[candidates][1] = b0->inter.mv[1];
candidates++;
} else if (b1 && b1->type == CU_INTER) {
mv_cand[candidates][0] = b1->inter.mv[0];
mv_cand[candidates][1] = b1->inter.mv[1];
candidates++;
} else if(b2 && b2->type == CU_INTER) {
mv_cand[candidates][0] = b2->inter.mv[0];
mv_cand[candidates][1] = b2->inter.mv[1];
candidates++;
}
if(candidates < 2) {
//TODO: add temporal mv predictor
}
for (;candidates < 2; candidates++) {
mv_cand[candidates][0] = 0;
mv_cand[candidates][1] = 0;
candidates++;
}
}