uvg266/src/bitstream.c

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/**
* HEVC Encoder
* - Marko Viitanen ( fador at iki.fi ), Tampere University of Technology, Department of Pervasive Computing.
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*/
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/*! \file bitstream.c
\brief Bitstream related functions
\author Marko Viitanen
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\date 2013-02
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This file has all bitstream functions
*/
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#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <string.h>
#include <stdarg.h>
/* for hton */
#ifdef WIN32
#include <Winsock2.h>
#else
#include <net/hton.h>
#endif
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#include "global.h"
#include "bitstream.h"
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//#define VERBOSE
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#ifdef VERBOSE
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void printf_bitstream(char *msg, ...)
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{
va_list fmtargs;
char buffer[1024];
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va_start(fmtargs,msg);
vsnprintf(buffer,sizeof(buffer)-1,msg,fmtargs);
va_end(fmtargs);
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printf("%s",buffer);
}
#endif
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bitTable *g_exp_table;
//From wikipedia
//http://en.wikipedia.org/wiki/Binary_logarithm#Algorithm
int floorLog2(unsigned int n) {
int pos = 0;
if (n >= 1<<16) { n >>= 16; pos += 16; }
if (n >= 1<< 8) { n >>= 8; pos += 8; }
if (n >= 1<< 4) { n >>= 4; pos += 4; }
if (n >= 1<< 2) { n >>= 2; pos += 2; }
if (n >= 1<< 1) { pos += 1; }
return ((n == 0) ? (-1) : pos);
}
//Initialize the Exp Golomb code table with desired number of values
void init_exp_golomb(uint32_t len)
{
uint32_t code_num;
uint32_t M;
uint32_t info;
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g_exp_table=(bitTable*)malloc(len*sizeof(bitTable));
for(code_num=0;code_num<len;code_num++)
{
M=(uint32_t)floorLog2(code_num+1);
info=code_num+1-(uint32_t)pow(2,M);
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g_exp_table[code_num].len=M*2+1;
g_exp_table[code_num].value=(1<<M)|info;
//printf_cavlc("Len: %i %x\n", M*2+1, (1<<M)|info);
}
}
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/*
* Clear bitstream
*/
void bitstream_init(bitstream* stream)
{
stream->cur_byte=0;
stream->cur_bit=0;
memset(stream->data, 0, sizeof(uint32_t)*32);
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}
/*
* Allocate buffer
*/
void bitstream_alloc(bitstream* stream, uint32_t alloc)
{
stream->buffer = (uint8_t*)malloc(alloc);
stream->bufferlen = alloc;
//Clear just to be sure
bitstream_clear_buffer(stream);
}
void bitstream_clear_buffer(bitstream* stream)
{
memset(stream->buffer,0,stream->bufferlen);
stream->buffer_pos = 0;
}
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/*!
\brief Put bits to bitstream
\param stream pointer bitstream to put the data
\param data pointer to actual data
\param bits number of bits to write
*/
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void bitstream_put(bitstream* stream, uint32_t data, uint8_t bits)
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{
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uint32_t bitsleft=32-stream->cur_bit;
#ifdef VERBOSE
uint8_t i=0;
printf_bitstream("put: ");
for(i=0;i<bits;i++)
{
printf("%i",(data&(1<<(bits-i-1)))?1:0);
}
printf_bitstream("\n");
//printf_bitstream(" count: %i\n",bits);
#endif
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//Theres space for all the bits
if(bits<=bitsleft)
{
stream->data[stream->cur_byte] |= (data<<((bitsleft-bits)));
stream->cur_bit+=bits;
bits=0;
}
//No space for everything, store the bits we can and continue later
else
{
stream->data[stream->cur_byte] |= (data>>(bits-bitsleft));
stream->cur_bit=32;
bits-=bitsleft;
}
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//Check if the buffer is full
if(stream->cur_bit==32)
{
bitsleft=32;
stream->cur_byte++;
stream->cur_bit = 0;
if(stream->cur_byte==32)
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{
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//Flush data out
bitstream_flush(stream);
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}
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}
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//..still some writing to do
if(bits!=0)
{
stream->data[stream->cur_byte] |= (data<<(bitsleft-bits));
stream->cur_bit+=bits;
}
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}
/*!
\brief Align the bitstream
*/
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void bitstream_align(bitstream* stream)
{
bitstream_put(stream,1, 1);
if((stream->cur_bit&7) != 0)
{
bitstream_put(stream,0, 8-(stream->cur_bit&7));
}
}
void bitstream_align_zero(bitstream* stream)
{
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if((stream->cur_bit&7) != 0)
{
bitstream_put(stream,0, 8-(stream->cur_bit&7));
}
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}
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void bitstream_flush(bitstream* stream)
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{
/*
* SAVE DATA TO OUTPUT
*/
int i;
uint32_t correct_endian;
if(stream->output)
{
if(stream->cur_byte)
{
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fwrite(&stream->data[0], stream->cur_byte*4, 1, stream->output);
}
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if(stream->cur_bit>>3)
{
fwrite(&stream->data[stream->cur_byte], stream->cur_bit>>3, 1, stream->output);
}
}
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/* No file open, write to buffer */
else
{
if(stream->cur_byte)
{
/* Handle endianness issue */
for(i = 0; i < stream->cur_byte; i++)
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{
/* "network" is big-endian */
correct_endian = htonl(stream->data[i]);
memcpy((uint8_t*)&stream->buffer[stream->buffer_pos],&correct_endian,4);
stream->buffer_pos += 4;
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}
}
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if(stream->cur_bit>>3)
{
correct_endian = htonl(stream->data[stream->cur_byte]);
memcpy((uint8_t*)&stream->buffer[stream->buffer_pos],&correct_endian,stream->cur_bit>>3);
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stream->buffer_pos += stream->cur_bit>>3;
}
}
//Stream flushed, zero out the values
bitstream_init(stream);
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}