enc_progressive_split.cc

// Copyright (c) the JPEG XL Project Authors. All rights reserved.

//

// Use of this source code is governed by a BSD-style

// license that can be found in the LICENSE file.

#include "lib/jxl/enc_progressive_split.h"

#include <string.h>

#include <algorithm>

#include <memory>

#include "lib/jxl/ac_strategy.h"

#include "lib/jxl/common.h"  // kMaxNumPasses

#include "lib/jxl/image.h"

namespace jxl {

template <typename T>

void ProgressiveSplitter::SplitACCoefficients(

    const T* JXL_RESTRICT block, const AcStrategy& acs, size_t bx, size_t by,

    T* JXL_RESTRICT output[kMaxNumPasses]) {

  size_t size = acs.covered_blocks_x() * acs.covered_blocks_y() * kDCTBlockSize;

  auto shift_right_round0 = [&](T v, int shift) {

    T one_if_negative = static_cast<uint32_t>(v) >> 31;

    T add = (one_if_negative << shift) - one_if_negative;

    return (v + add) >> shift;

};

  // Early quit for the simple case of only one pass.

  if (mode_.num_passes == 1) {

    memcpy(output[0], block, sizeof(T) * size);

    return;

  size_t ncoeffs_all_done_from_earlier_passes = 1;

  int previous_pass_shift = 0;

  for (size_t num_pass = 0; num_pass < mode_.num_passes; num_pass++) {  // pass

    // Zero out output block.

    memset(output[num_pass], 0, size * sizeof(T));

    const int pass_shift = mode_.passes[num_pass].shift;

    size_t frame_ncoeffs = mode_.passes[num_pass].num_coefficients;

    size_t xsize = acs.covered_blocks_x();

    size_t ysize = acs.covered_blocks_y();

    CoefficientLayout(&ysize, &xsize);

    for (size_t y = 0; y < ysize * frame_ncoeffs; y++) {    // superblk-y

      for (size_t x = 0; x < xsize * frame_ncoeffs; x++) {  // superblk-x

        size_t pos = y * xsize * kBlockDim + x;

        if (x < xsize * ncoeffs_all_done_from_earlier_passes &&

            y < ysize * ncoeffs_all_done_from_earlier_passes) {

          // This coefficient was already included in an earlier pass,

          // which included a genuinely smaller set of coefficients.

          continue;

        T v = block[pos];

        // Previous pass discarded some bits: do not encode them again.

        if (previous_pass_shift != 0) {

          T previous_v = shift_right_round0(v, previous_pass_shift) *

                         (1 << previous_pass_shift);

          v -= previous_v;

        output[num_pass][pos] = shift_right_round0(v, pass_shift);

      }  // superblk-x

    }    // superblk-y

    // We just finished a pass.

    // Hence, we are now guaranteed to have included all coeffs up to

    // frame_ncoeffs in every block, unless the current pass is shifted.

    if (mode_.passes[num_pass].shift == 0) {

      ncoeffs_all_done_from_earlier_passes = frame_ncoeffs;

    previous_pass_shift = mode_.passes[num_pass].shift;

  }  // num_pass

template void ProgressiveSplitter::SplitACCoefficients<int32_t>(

    const int32_t* JXL_RESTRICT, const AcStrategy&, size_t, size_t,

    int32_t* JXL_RESTRICT[kMaxNumPasses]);

template void ProgressiveSplitter::SplitACCoefficients<int16_t>(

    const int16_t* JXL_RESTRICT, const AcStrategy&, size_t, size_t,

    int16_t* JXL_RESTRICT[kMaxNumPasses]);

}  // namespace jxl