// 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.

#ifndef LIB_JXL_MODULAR_ENCODING_ENCODING_H_

#define LIB_JXL_MODULAR_ENCODING_ENCODING_H_

#include <array>

#include <cstddef>

#include <cstdint>

#include <limits>

#include <vector>

#include "lib/jxl/base/compiler_specific.h"

#include "lib/jxl/base/status.h"

#include "lib/jxl/field_encodings.h"

#include "lib/jxl/modular/encoding/context_predict.h"

#include "lib/jxl/modular/encoding/dec_ma.h"

#include "lib/jxl/modular/modular_image.h"

#include "lib/jxl/modular/options.h"

#include "lib/jxl/modular/transform/transform.h"

namespace jxl {

struct ANSCode;

class BitReader;

// Valid range of properties for using lookup tables instead of trees.

constexpr int32_t kPropRangeFast = 512 << 4;

struct GroupHeader : public Fields {

  GroupHeader();

  JXL_FIELDS_NAME(GroupHeader)

  Status VisitFields(Visitor *JXL_RESTRICT visitor) override {

    JXL_QUIET_RETURN_IF_ERROR(visitor->Bool(false, &use_global_tree));

    JXL_QUIET_RETURN_IF_ERROR(visitor->VisitNested(&wp_header));

    uint32_t num_transforms = static_cast<uint32_t>(transforms.size());

    JXL_QUIET_RETURN_IF_ERROR(visitor->U32(Val(0), Val(1), BitsOffset(4, 2),

                                           BitsOffset(8, 18), 0,

                                           &num_transforms));

    if (visitor->IsReading()) transforms.resize(num_transforms);

    for (size_t i = 0; i < num_transforms; i++) {

      JXL_QUIET_RETURN_IF_ERROR(visitor->VisitNested(&transforms[i]));

    }

    return true;

  }

  bool use_global_tree;

  weighted::Header wp_header;

  std::vector<Transform> transforms;

};

FlatTree FilterTree(const Tree &global_tree,

                    std::array<pixel_type, kNumStaticProperties> &static_props,

                    size_t *num_props, bool *use_wp, bool *wp_only,

                    bool *gradient_only);

template <typename T, bool HAS_OFFSETS, bool HAS_MULTIPLIERS>

struct TreeLut {

  std::array<T, 2 * kPropRangeFast> context_lookup;

  std::array<int8_t, HAS_OFFSETS ? (2 * kPropRangeFast) : 0> offsets;

  std::array<int8_t, HAS_MULTIPLIERS ? (2 * kPropRangeFast) : 0> multipliers;

};

template <typename T, bool HAS_OFFSETS, bool HAS_MULTIPLIERS>

bool TreeToLookupTable(const FlatTree &tree,

                       TreeLut<T, HAS_OFFSETS, HAS_MULTIPLIERS> &lut) {

  struct TreeRange {

    // Begin *excluded*, end *included*. This works best with > vs <= decision

    // nodes.

    int begin, end;

    size_t pos;

  };

  std::vector<TreeRange> ranges;

  ranges.push_back(TreeRange{-kPropRangeFast - 1, kPropRangeFast - 1, 0});

  while (!ranges.empty()) {

    TreeRange cur = ranges.back();

    ranges.pop_back();

    if (cur.begin < -kPropRangeFast - 1 || cur.begin >= kPropRangeFast - 1 ||

        cur.end > kPropRangeFast - 1) {

      // Tree is outside the allowed range, exit.

      return false;

    }

    auto &node = tree[cur.pos];

    // Leaf.

    if (node.property0 == -1) {

      if (node.predictor_offset < std::numeric_limits<int8_t>::min() ||

          node.predictor_offset > std::numeric_limits<int8_t>::max()) {

        return false;

      }

      if (node.multiplier < std::numeric_limits<int8_t>::min() ||

          node.multiplier > std::numeric_limits<int8_t>::max()) {

        return false;

      }

      if (!HAS_MULTIPLIERS && node.multiplier != 1) {

        return false;

      }

      if (!HAS_OFFSETS && node.predictor_offset != 0) {

        return false;

      }

      for (int i = cur.begin + 1; i < cur.end + 1; i++) {

        lut.context_lookup[i + kPropRangeFast] = node.childID;

        if (HAS_MULTIPLIERS) {

          lut.multipliers[i + kPropRangeFast] = node.multiplier;

        }

        if (HAS_OFFSETS) {

          lut.offsets[i + kPropRangeFast] = node.predictor_offset;

        }

      }

      continue;

    }

    // > side of top node.

    if (node.properties[0] >= kNumStaticProperties) {

      ranges.push_back(TreeRange({node.splitvals[0], cur.end, node.childID}));

      ranges.push_back(

          TreeRange({node.splitval0, node.splitvals[0], node.childID + 1}));

    } else {

      ranges.push_back(TreeRange({node.splitval0, cur.end, node.childID}));

    }

    // <= side

    if (node.properties[1] >= kNumStaticProperties) {

      ranges.push_back(

          TreeRange({node.splitvals[1], node.splitval0, node.childID + 2}));

      ranges.push_back(

          TreeRange({cur.begin, node.splitvals[1], node.childID + 3}));

    } else {

      ranges.push_back(

          TreeRange({cur.begin, node.splitval0, node.childID + 2}));

    }

  }

  return true;

}

bool jxl::TreeToLookupTable<unsigned short, false, false>(std::__1::vector<jxl::FlatDecisionNode, std::__1::allocator<jxl::FlatDecisionNode> > const&, jxl::TreeLut<unsigned short, false, false>&)

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                       TreeLut<T, HAS_OFFSETS, HAS_MULTIPLIERS> &lut) {

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  struct TreeRange {

73

    // Begin *excluded*, end *included*. This works best with > vs <= decision

74

    // nodes.

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    int begin, end;

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    size_t pos;

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  };

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  std::vector<TreeRange> ranges;

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  ranges.push_back(TreeRange{-kPropRangeFast - 1, kPropRangeFast - 1, 0});

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  while (!ranges.empty()) {

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    TreeRange cur = ranges.back();

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    ranges.pop_back();

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    if (cur.begin < -kPropRangeFast - 1 || cur.begin >= kPropRangeFast - 1 ||

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        cur.end > kPropRangeFast - 1) {

85

      // Tree is outside the allowed range, exit.

86

0

      return false;

87

0

    }

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    auto &node = tree[cur.pos];

89

    // Leaf.

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    if (node.property0 == -1) {

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      if (node.predictor_offset < std::numeric_limits<int8_t>::min() ||

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          node.predictor_offset > std::numeric_limits<int8_t>::max()) {

93

0

        return false;

94

0

      }

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      if (node.multiplier < std::numeric_limits<int8_t>::min() ||

96

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          node.multiplier > std::numeric_limits<int8_t>::max()) {

97

0

        return false;

98

0

      }

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      if (!HAS_MULTIPLIERS && node.multiplier != 1) {

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0

        return false;

101

0

      }

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      if (!HAS_OFFSETS && node.predictor_offset != 0) {

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0

        return false;

104

0

      }

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      for (int i = cur.begin + 1; i < cur.end + 1; i++) {

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        lut.context_lookup[i + kPropRangeFast] = node.childID;

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        if (HAS_MULTIPLIERS) {

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0

          lut.multipliers[i + kPropRangeFast] = node.multiplier;

109

0

        }

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        if (HAS_OFFSETS) {

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0

          lut.offsets[i + kPropRangeFast] = node.predictor_offset;

112

0

        }

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      }

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      continue;

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    }

116

    // > side of top node.

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    if (node.properties[0] >= kNumStaticProperties) {

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      ranges.push_back(TreeRange({node.splitvals[0], cur.end, node.childID}));

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      ranges.push_back(

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          TreeRange({node.splitval0, node.splitvals[0], node.childID + 1}));

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    } else {

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      ranges.push_back(TreeRange({node.splitval0, cur.end, node.childID}));

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    }

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    // <= side

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    if (node.properties[1] >= kNumStaticProperties) {

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      ranges.push_back(

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          TreeRange({node.splitvals[1], node.splitval0, node.childID + 2}));

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      ranges.push_back(

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          TreeRange({cur.begin, node.splitvals[1], node.childID + 3}));

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    } else {

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      ranges.push_back(

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          TreeRange({cur.begin, node.splitval0, node.childID + 2}));

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    }

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  }

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  return true;

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}

bool jxl::TreeToLookupTable<unsigned char, false, false>(std::__1::vector<jxl::FlatDecisionNode, std::__1::allocator<jxl::FlatDecisionNode> > const&, jxl::TreeLut<unsigned char, false, false>&)

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4.51k

                       TreeLut<T, HAS_OFFSETS, HAS_MULTIPLIERS> &lut) {

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  struct TreeRange {

73

    // Begin *excluded*, end *included*. This works best with > vs <= decision

74

    // nodes.

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    int begin, end;

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    size_t pos;

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  };

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  std::vector<TreeRange> ranges;

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  ranges.push_back(TreeRange{-kPropRangeFast - 1, kPropRangeFast - 1, 0});

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  while (!ranges.empty()) {

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    TreeRange cur = ranges.back();

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    ranges.pop_back();

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    if (cur.begin < -kPropRangeFast - 1 || cur.begin >= kPropRangeFast - 1 ||

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        cur.end > kPropRangeFast - 1) {

85

      // Tree is outside the allowed range, exit.

86

0

      return false;

87

0

    }

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    auto &node = tree[cur.pos];

89

    // Leaf.

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    if (node.property0 == -1) {

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      if (node.predictor_offset < std::numeric_limits<int8_t>::min() ||

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          node.predictor_offset > std::numeric_limits<int8_t>::max()) {

93

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        return false;

94

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      }

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      if (node.multiplier < std::numeric_limits<int8_t>::min() ||

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          node.multiplier > std::numeric_limits<int8_t>::max()) {

97

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        return false;

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      }

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      if (!HAS_MULTIPLIERS && node.multiplier != 1) {

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        return false;

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      }

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      if (!HAS_OFFSETS && node.predictor_offset != 0) {

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        return false;

104

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      }

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      for (int i = cur.begin + 1; i < cur.end + 1; i++) {

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        lut.context_lookup[i + kPropRangeFast] = node.childID;

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        if (HAS_MULTIPLIERS) {

108

0

          lut.multipliers[i + kPropRangeFast] = node.multiplier;

109

0

        }

110

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        if (HAS_OFFSETS) {

111

0

          lut.offsets[i + kPropRangeFast] = node.predictor_offset;

112

0

        }

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      }

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      continue;

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    }

116

    // > side of top node.

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    if (node.properties[0] >= kNumStaticProperties) {

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      ranges.push_back(TreeRange({node.splitvals[0], cur.end, node.childID}));

119

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      ranges.push_back(

120

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          TreeRange({node.splitval0, node.splitvals[0], node.childID + 1}));

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    } else {

122

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      ranges.push_back(TreeRange({node.splitval0, cur.end, node.childID}));

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    }

124

    // <= side

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    if (node.properties[1] >= kNumStaticProperties) {

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      ranges.push_back(

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          TreeRange({node.splitvals[1], node.splitval0, node.childID + 2}));

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      ranges.push_back(

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          TreeRange({cur.begin, node.splitvals[1], node.childID + 3}));

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    } else {

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      ranges.push_back(

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          TreeRange({cur.begin, node.splitval0, node.childID + 2}));

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    }

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  }

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  return true;

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}

// TODO(veluca): make cleaner interfaces.

Status ValidateChannelDimensions(const Image &image,

                                 const ModularOptions &options);

Status ModularGenericDecompress(BitReader *br, Image &image,

                                GroupHeader *header, size_t group_id,

                                ModularOptions *options,

                                bool undo_transforms = true,

                                const Tree *tree = nullptr,

                                const ANSCode *code = nullptr,

                                const std::vector<uint8_t> *ctx_map = nullptr,

                                bool allow_truncated_group = false);

}  // namespace jxl

#endif  // LIB_JXL_MODULAR_ENCODING_ENCODING_H_