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/*
 * Copyright (c) 2001-2016, Alliance for Open Media. All rights reserved
 *
 * This source code is subject to the terms of the BSD 2 Clause License and
 * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
 * was not distributed with this source code in the LICENSE file, you can
 * obtain it at www.aomedia.org/license/software. If the Alliance for Open
 * Media Patent License 1.0 was not distributed with this source code in the
 * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
 */

#ifdef HAVE_CONFIG_H
#include "./config.h"
#endif

#include <stdlib.h>
#include <string.h>
#include "aom_dsp/entenc.h"

/*A range encoder.
  See entdec.c and the references for implementation details \cite{Mar79,MNW98}.

  @INPROCEEDINGS{Mar79,
   author="Martin, G.N.N.",
   title="Range encoding: an algorithm for removing redundancy from a digitised
    message",
   booktitle="Video \& Data Recording Conference",
   year=1979,
   address="Southampton",
   month=Jul,
   URL="http://www.compressconsult.com/rangecoder/rngcod.pdf.gz"
  }
  @ARTICLE{MNW98,
   author="Alistair Moffat and Radford Neal and Ian H. Witten",
   title="Arithmetic Coding Revisited",
   journal="{ACM} Transactions on Information Systems",
   year=1998,
   volume=16,
   number=3,
   pages="256--294",
   month=Jul,
   URL="http://researchcommons.waikato.ac.nz/bitstream/handle/10289/78/content.pdf"
  }*/

/*Takes updated low and range values, renormalizes them so that
   32768 <= rng < 65536 (flushing bytes from low to the pre-carry buffer if
   necessary), and stores them back in the encoder context.
  low: The new value of low.
  rng: The new value of the range.*/
static void od_ec_enc_normalize(od_ec_enc *enc, od_ec_window low,
                                unsigned rng) {
  int d;
  int c;
  int s;
  c = enc->cnt;
  OD_ASSERT(rng <= 65535U);
  d = 16 - OD_ILOG_NZ(rng);
  s = c + d;
  /*TODO: Right now we flush every time we have at least one byte available.
    Instead we should use an od_ec_window and flush right before we're about to
     shift bits off the end of the window.
    For a 32-bit window this is about the same amount of work, but for a 64-bit
     window it should be a fair win.*/
  if (s >= 0) {
    uint16_t *buf;
    uint32_t storage;
    uint32_t offs;
    unsigned m;
    buf = enc->precarry_buf;
    storage = enc->precarry_storage;
    offs = enc->offs;
    if (offs + 2 > storage) {
      storage = 2 * storage + 2;
      buf = (uint16_t *)realloc(buf, sizeof(*buf) * storage);
      if (buf == NULL) {
        enc->error = -1;
        enc->offs = 0;
        return;
      }
      enc->precarry_buf = buf;
      enc->precarry_storage = storage;
    }
    c += 16;
    m = (1 << c) - 1;
    if (s >= 8) {
      OD_ASSERT(offs < storage);
      buf[offs++] = (uint16_t)(low >> c);
      low &= m;
      c -= 8;
      m >>= 8;
    }
    OD_ASSERT(offs < storage);
    buf[offs++] = (uint16_t)(low >> c);
    s = c + d - 24;
    low &= m;
    enc->offs = offs;
  }
  enc->low = low << d;
  enc->rng = rng << d;
  enc->cnt = s;
}

/*Initializes the encoder.
  size: The initial size of the buffer, in bytes.*/
void od_ec_enc_init(od_ec_enc *enc, uint32_t size) {
  od_ec_enc_reset(enc);
  enc->buf = (unsigned char *)malloc(sizeof(*enc->buf) * size);
  enc->storage = size;
  if (size > 0 && enc->buf == NULL) {
    enc->storage = 0;
    enc->error = -1;
  }
  enc->precarry_buf = (uint16_t *)malloc(sizeof(*enc->precarry_buf) * size);
  enc->precarry_storage = size;
  if (size > 0 && enc->precarry_buf == NULL) {
    enc->precarry_storage = 0;
    enc->error = -1;
  }
}

/*Reinitializes the encoder.*/
void od_ec_enc_reset(od_ec_enc *enc) {
  enc->end_offs = 0;
  enc->end_window = 0;
  enc->nend_bits = 0;
  enc->offs = 0;
  enc->low = 0;
  enc->rng = 0x8000;
  /*This is initialized to -9 so that it crosses zero after we've accumulated
     one byte + one carry bit.*/
  enc->cnt = -9;
  enc->error = 0;
#if OD_MEASURE_EC_OVERHEAD
  enc->entropy = 0;
  enc->nb_symbols = 0;
#endif
}

/*Frees the buffers used by the encoder.*/
void od_ec_enc_clear(od_ec_enc *enc) {
  free(enc->precarry_buf);
  free(enc->buf);
}

/*Encodes a symbol given its frequency in Q15.
  fl: 32768 minus the cumulative frequency of all symbols that come before the
       one to be encoded.
  fh: 32768 minus the cumulative frequency of all symbols up to and including
       the one to be encoded.*/
static void od_ec_encode_q15(od_ec_enc *enc, unsigned fl, unsigned fh) {
  od_ec_window l;
  unsigned r;
  unsigned u;
  unsigned v;
  l = enc->low;
  r = enc->rng;
  OD_ASSERT(32768U <= r);
  OD_ASSERT(fh < fl);
  OD_ASSERT(fl <= 32768U);
  if (fl < 32768U) {
    u = (r >> 8) * (uint32_t)fl >> 7;
    v = (r >> 8) * (uint32_t)fh >> 7;
    l += r - u;
    r = u - v;
  } else {
    r -= (r >> 8) * (uint32_t)fh >> 7;
  }
  od_ec_enc_normalize(enc, l, r);
#if OD_MEASURE_EC_OVERHEAD
  enc->entropy -= OD_LOG2((double)(OD_ICDF(fh) - OD_ICDF(fl)) / 32768.);
  enc->nb_symbols++;
#endif
}

/*Encode a single binary value.
  val: The value to encode (0 or 1).
  f: The probability that the val is one, scaled by 32768.*/
void od_ec_encode_bool_q15(od_ec_enc *enc, int val, unsigned f) {
  od_ec_window l;
  unsigned r;
  unsigned v;
  OD_ASSERT(0 < f);
  OD_ASSERT(f < 32768U);
  l = enc->low;
  r = enc->rng;
  OD_ASSERT(32768U <= r);
  v = (r >> 8) * (uint32_t)f >> 7;
  if (val) l += r - v;
  r = val ? v : r - v;
  od_ec_enc_normalize(enc, l, r);
#if OD_MEASURE_EC_OVERHEAD
  enc->entropy -=
      OD_LOG2((double)(val ? 32768 - OD_ICDF(f) : OD_ICDF(f)) / 32768.);
  enc->nb_symbols++;
#endif
}

/*Encodes a symbol given a cumulative distribution function (CDF) table in Q15.
  s: The index of the symbol to encode.
  icdf: 32768 minus the CDF, such that symbol s falls in the range
         [s > 0 ? (32768 - icdf[s - 1]) : 0, 32768 - icdf[s]).
        The values must be monotonically decreasing, and icdf[nsyms - 1] must
         be 0.
  nsyms: The number of symbols in the alphabet.
         This should be at most 16.*/
void od_ec_encode_cdf_q15(od_ec_enc *enc, int s, const uint16_t *icdf,
                          int nsyms) {
  (void)nsyms;
  OD_ASSERT(s >= 0);
  OD_ASSERT(s < nsyms);
  OD_ASSERT(icdf[nsyms - 1] == OD_ICDF(32768U));
  od_ec_encode_q15(enc, s > 0 ? icdf[s - 1] : OD_ICDF(0), icdf[s]);
}

#if CONFIG_RAWBITS
/*Encodes a sequence of raw bits in the stream.
  fl: The bits to encode.
  ftb: The number of bits to encode.
       This must be between 0 and 25, inclusive.*/
void od_ec_enc_bits(od_ec_enc *enc, uint32_t fl, unsigned ftb) {
  od_ec_window end_window;
  int nend_bits;
  OD_ASSERT(ftb <= 25);
  OD_ASSERT(fl < (uint32_t)1 << ftb);
#if OD_MEASURE_EC_OVERHEAD
  enc->entropy += ftb;
#endif
  end_window = enc->end_window;
  nend_bits = enc->nend_bits;
  if (nend_bits + ftb > OD_EC_WINDOW_SIZE) {
    unsigned char *buf;
    uint32_t storage;
    uint32_t end_offs;
    buf = enc->buf;
    storage = enc->storage;
    end_offs = enc->end_offs;
    if (end_offs + (OD_EC_WINDOW_SIZE >> 3) >= storage) {
      unsigned char *new_buf;
      uint32_t new_storage;
      new_storage = 2 * storage + (OD_EC_WINDOW_SIZE >> 3);
      new_buf = (unsigned char *)malloc(sizeof(*new_buf) * new_storage);
      if (new_buf == NULL) {
        enc->error = -1;
        enc->end_offs = 0;
        return;
      }
      OD_COPY(new_buf + new_storage - end_offs, buf + storage - end_offs,
              end_offs);
      storage = new_storage;
      free(buf);
      enc->buf = buf = new_buf;
      enc->storage = storage;
    }
    do {
      OD_ASSERT(end_offs < storage);
      buf[storage - ++end_offs] = (unsigned char)end_window;
      end_window >>= 8;
      nend_bits -= 8;
    } while (nend_bits >= 8);
    enc->end_offs = end_offs;
  }
  OD_ASSERT(nend_bits + ftb <= OD_EC_WINDOW_SIZE);
  end_window |= (od_ec_window)fl << nend_bits;
  nend_bits += ftb;
  enc->end_window = end_window;
  enc->nend_bits = nend_bits;
}
#endif

/*Overwrites a few bits at the very start of an existing stream, after they
   have already been encoded.
  This makes it possible to have a few flags up front, where it is easy for
   decoders to access them without parsing the whole stream, even if their
   values are not determined until late in the encoding process, without having
   to buffer all the intermediate symbols in the encoder.
  In order for this to work, at least nbits bits must have already been encoded
   using probabilities that are an exact power of two.
  The encoder can verify the number of encoded bits is sufficient, but cannot
   check this latter condition.
  val: The bits to encode (in the least nbits significant bits).
       They will be decoded in order from most-significant to least.
  nbits: The number of bits to overwrite.
         This must be no more than 8.*/
void od_ec_enc_patch_initial_bits(od_ec_enc *enc, unsigned val, int nbits) {
  int shift;
  unsigned mask;
  OD_ASSERT(nbits >= 0);
  OD_ASSERT(nbits <= 8);
  OD_ASSERT(val < 1U << nbits);
  shift = 8 - nbits;
  mask = ((1U << nbits) - 1) << shift;
  if (enc->offs > 0) {
    /*The first byte has been finalized.*/
    enc->precarry_buf[0] =
        (uint16_t)((enc->precarry_buf[0] & ~mask) | val << shift);
  } else if (9 + enc->cnt + (enc->rng == 0x8000) > nbits) {
    /*The first byte has yet to be output.*/
    enc->low = (enc->low & ~((od_ec_window)mask << (16 + enc->cnt))) |
               (od_ec_window)val << (16 + enc->cnt + shift);
  } else {
    /*The encoder hasn't even encoded _nbits of data yet.*/
    enc->error = -1;
  }
}

#if OD_MEASURE_EC_OVERHEAD
#include <stdio.h>
#endif

/*Indicates that there are no more symbols to encode.
  All remaining output bytes are flushed to the output buffer.
  od_ec_enc_reset() should be called before using the encoder again.
  bytes: Returns the size of the encoded data in the returned buffer.
  Return: A pointer to the start of the final buffer, or NULL if there was an
           encoding error.*/
unsigned char *od_ec_enc_done(od_ec_enc *enc, uint32_t *nbytes) {
  unsigned char *out;
  uint32_t storage;
  uint16_t *buf;
  uint32_t offs;
  uint32_t end_offs;
  int nend_bits;
  od_ec_window m;
  od_ec_window e;
  od_ec_window l;
  unsigned r;
  int c;
  int s;
  if (enc->error) return NULL;
#if OD_MEASURE_EC_OVERHEAD
  {
    uint32_t tell;
    /* Don't count the 1 bit we lose to raw bits as overhead. */
    tell = od_ec_enc_tell(enc) - 1;
    fprintf(stderr, "overhead: %f%%\n",
            100 * (tell - enc->entropy) / enc->entropy);
    fprintf(stderr, "efficiency: %f bits/symbol\n",
            (double)tell / enc->nb_symbols);
  }
#endif
  /*We output the minimum number of bits that ensures that the symbols encoded
     thus far will be decoded correctly regardless of the bits that follow.*/
  l = enc->low;
  r = enc->rng;
  c = enc->cnt;
  s = 9;
  m = 0x7FFF;
  e = (l + m) & ~m;
  while ((e | m) >= l + r) {
    s++;
    m >>= 1;
    e = (l + m) & ~m;
  }
  s += c;
  offs = enc->offs;
  buf = enc->precarry_buf;
  if (s > 0) {
    unsigned n;
    storage = enc->precarry_storage;
    if (offs + ((s + 7) >> 3) > storage) {
      storage = storage * 2 + ((s + 7) >> 3);
      buf = (uint16_t *)realloc(buf, sizeof(*buf) * storage);
      if (buf == NULL) {
        enc->error = -1;
        return NULL;
      }
      enc->precarry_buf = buf;
      enc->precarry_storage = storage;
    }
    n = (1 << (c + 16)) - 1;
    do {
      OD_ASSERT(offs < storage);
      buf[offs++] = (uint16_t)(e >> (c + 16));
      e &= n;
      s -= 8;
      c -= 8;
      n >>= 8;
    } while (s > 0);
  }
  /*Make sure there's enough room for the entropy-coded bits and the raw
     bits.*/
  out = enc->buf;
  storage = enc->storage;
  end_offs = enc->end_offs;
  e = enc->end_window;
  nend_bits = enc->nend_bits;
  s = -s;
  c = OD_MAXI((nend_bits - s + 7) >> 3, 0);
  if (offs + end_offs + c > storage) {
    storage = offs + end_offs + c;
    out = (unsigned char *)realloc(out, sizeof(*out) * storage);
    if (out == NULL) {
      enc->error = -1;
      return NULL;
    }
    OD_MOVE(out + storage - end_offs, out + enc->storage - end_offs, end_offs);
    enc->buf = out;
    enc->storage = storage;
  }
  /*If we have buffered raw bits, flush them as well.*/
  while (nend_bits > s) {
    OD_ASSERT(end_offs < storage);
    out[storage - ++end_offs] = (unsigned char)e;
    e >>= 8;
    nend_bits -= 8;
  }
  *nbytes = offs + end_offs;
  /*Perform carry propagation.*/
  OD_ASSERT(offs + end_offs <= storage);
  out = out + storage - (offs + end_offs);
  c = 0;
  end_offs = offs;
  while (offs > 0) {
    offs--;
    c = buf[offs] + c;
    out[offs] = (unsigned char)c;
    c >>= 8;
  }
  /*Add any remaining raw bits to the last byte.
    There is guaranteed to be enough room, because nend_bits <= s.*/
  OD_ASSERT(nend_bits <= 0 || end_offs > 0);
  if (nend_bits > 0) out[end_offs - 1] |= (unsigned char)e;
  /*Note: Unless there's an allocation error, if you keep encoding into the
     current buffer and call this function again later, everything will work
     just fine (you won't get a new packet out, but you will get a single
     buffer with the new data appended to the old).
    However, this function is O(N) where N is the amount of data coded so far,
     so calling it more than once for a given packet is a bad idea.*/
  return out;
}

/*Returns the number of bits "used" by the encoded symbols so far.
  This same number can be computed in either the encoder or the decoder, and is
   suitable for making coding decisions.
  Warning: The value returned by this function can decrease compared to an
   earlier call, even after encoding more data, if there is an encoding error
   (i.e., a failure to allocate enough space for the output buffer).
  Return: The number of bits.
          This will always be slightly larger than the exact value (e.g., all
           rounding error is in the positive direction).*/
int od_ec_enc_tell(const od_ec_enc *enc) {
  /*The 10 here counteracts the offset of -9 baked into cnt, and adds 1 extra
     bit, which we reserve for terminating the stream.*/
  return (enc->offs + enc->end_offs) * 8 + enc->cnt + enc->nend_bits + 10;
}

/*Returns the number of bits "used" by the encoded symbols so far.
  This same number can be computed in either the encoder or the decoder, and is
   suitable for making coding decisions.
  Warning: The value returned by this function can decrease compared to an
   earlier call, even after encoding more data, if there is an encoding error
   (i.e., a failure to allocate enough space for the output buffer).
  Return: The number of bits scaled by 2**OD_BITRES.
          This will always be slightly larger than the exact value (e.g., all
           rounding error is in the positive direction).*/
uint32_t od_ec_enc_tell_frac(const od_ec_enc *enc) {
  return od_ec_tell_frac(od_ec_enc_tell(enc), enc->rng);
}

/*Saves a entropy coder checkpoint to dst.
  This allows an encoder to reverse a series of entropy coder
   decisions if it decides that the information would have been
   better coded some other way.*/
void od_ec_enc_checkpoint(od_ec_enc *dst, const od_ec_enc *src) {
  OD_COPY(dst, src, 1);
}

/*Restores an entropy coder checkpoint saved by od_ec_enc_checkpoint.
  This can only be used to restore from checkpoints earlier in the target
   state's history: you can not switch backwards and forwards or otherwise
   switch to a state which isn't a casual ancestor of the current state.
  Restore is also incompatible with patching the initial bits, as the
   changes will remain in the restored version.*/
void od_ec_enc_rollback(od_ec_enc *dst, const od_ec_enc *src) {
  unsigned char *buf;
  uint32_t storage;
  uint16_t *precarry_buf;
  uint32_t precarry_storage;
  OD_ASSERT(dst->storage >= src->storage);
  OD_ASSERT(dst->precarry_storage >= src->precarry_storage);
  buf = dst->buf;
  storage = dst->storage;
  precarry_buf = dst->precarry_buf;
  precarry_storage = dst->precarry_storage;
  OD_COPY(dst, src, 1);
  dst->buf = buf;
  dst->storage = storage;
  dst->precarry_buf = precarry_buf;
  dst->precarry_storage = precarry_storage;
}