// 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/extras/dec/exr.h"

#include <cstdint>

#include "lib/extras/dec/color_hints.h"
#include "lib/extras/packed_image.h"
#include "lib/jxl/base/common.h"
#include "lib/jxl/base/span.h"
#include "lib/jxl/base/status.h"

#if !JPEGXL_ENABLE_EXR

namespace jxl {
namespace extras {
bool CanDecodeEXR() { return false; }

Status DecodeImageEXR(Span<const uint8_t> bytes, const ColorHints& color_hints,
                      PackedPixelFile* ppf,
                      const SizeConstraints* constraints) {
  (void)bytes;
  (void)color_hints;
  (void)ppf;
  (void)constraints;
  return JXL_FAILURE("EXR is not supported");
}
}  // namespace extras
}  // namespace jxl

#else  // JPEGXL_ENABLE_EXR

#include <ImfChromaticitiesAttribute.h>
#include <ImfIO.h>
#include <ImfRgbaFile.h>
#include <ImfStandardAttributes.h>

#include <vector>

#ifdef __EXCEPTIONS
#include <stdexcept>
#define JXL_EXR_THROW_LENGTH_ERROR() throw std::length_error("");
#else  // __EXCEPTIONS
#define JXL_EXR_THROW_LENGTH_ERROR() JXL_CRASH()
#endif  // __EXCEPTIONS

namespace jxl {
namespace extras {

namespace {

namespace OpenEXR = OPENEXR_IMF_NAMESPACE;

// OpenEXR::Int64 is deprecated in favor of using uint64_t directly, but using
// uint64_t as recommended causes build failures with previous OpenEXR versions
// on macOS, where the definition for OpenEXR::Int64 was actually not equivalent
// to uint64_t. This alternative should work in all cases.
using ExrInt64 = decltype(std::declval<OpenEXR::IStream>().tellg());

constexpr int kExrBitsPerSample = 16;
constexpr int kExrAlphaBits = 16;

class InMemoryIStream : public OpenEXR::IStream {
 public:
  // The data pointed to by `bytes` must outlive the InMemoryIStream.
  explicit InMemoryIStream(const Span<const uint8_t> bytes)
      : IStream(/*fileName=*/""), bytes_(bytes) {}

  bool isMemoryMapped() const override { return true; }
  char* readMemoryMapped(const int n) override {
    if (pos_ + n < pos_ || pos_ + n > bytes_.size()) {
      JXL_EXR_THROW_LENGTH_ERROR();
    }
    char* const result =
        const_cast<char*>(reinterpret_cast<const char*>(bytes_.data() + pos_));
    pos_ += n;
    return result;
  }
  bool read(char c[], const int n) override {
    std::copy_n(readMemoryMapped(n), n, c);
    return pos_ < bytes_.size();
  }

  ExrInt64 tellg() override { return pos_; }
  void seekg(const ExrInt64 pos) override {
    if (pos >= bytes_.size()) {
      JXL_EXR_THROW_LENGTH_ERROR();
    }
    pos_ = pos;
  }

 private:
  const Span<const uint8_t> bytes_;
  size_t pos_ = 0;
};

}  // namespace

bool CanDecodeEXR() { return true; }

Status DecodeImageEXR(Span<const uint8_t> bytes, const ColorHints& color_hints,
                      PackedPixelFile* ppf,
                      const SizeConstraints* constraints) {
  InMemoryIStream is(bytes);

#ifdef __EXCEPTIONS
  std::unique_ptr<OpenEXR::RgbaInputFile> input_ptr;
  try {
    input_ptr = jxl::make_unique<OpenEXR::RgbaInputFile>(is);
  } catch (...) {
    // silently return false if it is not an EXR file
    return false;
  }
  OpenEXR::RgbaInputFile& input = *input_ptr;
#else
  OpenEXR::RgbaInputFile input(is);
#endif

  if ((input.channels() & OpenEXR::RgbaChannels::WRITE_RGB) !=
      OpenEXR::RgbaChannels::WRITE_RGB) {
    return JXL_FAILURE("only RGB OpenEXR files are supported");
  }
  const bool has_alpha = (input.channels() & OpenEXR::RgbaChannels::WRITE_A) ==
                         OpenEXR::RgbaChannels::WRITE_A;

  const float intensity_target = OpenEXR::hasWhiteLuminance(input.header())
                                     ? OpenEXR::whiteLuminance(input.header())
                                     : 0;

  auto image_size = input.displayWindow().size();
  // Size is computed as max - min, but both bounds are inclusive.
  ++image_size.x;
  ++image_size.y;

  ppf->info.xsize = image_size.x;
  ppf->info.ysize = image_size.y;
  ppf->info.num_color_channels = 3;

  const JxlDataType data_type =
      kExrBitsPerSample == 16 ? JXL_TYPE_FLOAT16 : JXL_TYPE_FLOAT;
  const JxlPixelFormat format{
      /*num_channels=*/3u + (has_alpha ? 1u : 0u),
      /*data_type=*/data_type,
      /*endianness=*/JXL_NATIVE_ENDIAN,
      /*align=*/0,
  };
  ppf->frames.clear();
  // Allocates the frame buffer.
  {
    JXL_ASSIGN_OR_RETURN(
        PackedFrame frame,
        PackedFrame::Create(image_size.x, image_size.y, format));
    ppf->frames.emplace_back(std::move(frame));
  }
  const auto& frame = ppf->frames.back();

  const int row_size = input.dataWindow().size().x + 1;
  // Number of rows to read at a time.
  // https://www.openexr.com/documentation/ReadingAndWritingImageFiles.pdf
  // recommends reading the whole file at once.
  const int y_chunk_size = input.displayWindow().size().y + 1;
  std::vector<OpenEXR::Rgba> input_rows(row_size * y_chunk_size);
  for (int start_y =
           std::max(input.dataWindow().min.y, input.displayWindow().min.y);
       start_y <=
       std::min(input.dataWindow().max.y, input.displayWindow().max.y);
       start_y += y_chunk_size) {
    // Inclusive.
    const int end_y = std::min(
        start_y + y_chunk_size - 1,
        std::min(input.dataWindow().max.y, input.displayWindow().max.y));
    input.setFrameBuffer(
        input_rows.data() - input.dataWindow().min.x - start_y * row_size,
        /*xStride=*/1, /*yStride=*/row_size);
    input.readPixels(start_y, end_y);
    for (int exr_y = start_y; exr_y <= end_y; ++exr_y) {
      const int image_y = exr_y - input.displayWindow().min.y;
      const OpenEXR::Rgba* const JXL_RESTRICT input_row =
          &input_rows[(exr_y - start_y) * row_size];
      uint8_t* row = static_cast<uint8_t*>(frame.color.pixels()) +
                     frame.color.stride * image_y;
      const uint32_t pixel_size =
          (3 + (has_alpha ? 1 : 0)) * kExrBitsPerSample / 8;
      for (int exr_x =
               std::max(input.dataWindow().min.x, input.displayWindow().min.x);
           exr_x <=
           std::min(input.dataWindow().max.x, input.displayWindow().max.x);
           ++exr_x) {
        const int image_x = exr_x - input.displayWindow().min.x;
        // TODO(eustas): UB: OpenEXR::Rgba is not TriviallyCopyable
        memcpy(row + image_x * pixel_size,
               input_row + (exr_x - input.dataWindow().min.x), pixel_size);
      }
    }
  }

  ppf->color_encoding.transfer_function = JXL_TRANSFER_FUNCTION_LINEAR;
  ppf->color_encoding.color_space = JXL_COLOR_SPACE_RGB;
  ppf->color_encoding.primaries = JXL_PRIMARIES_SRGB;
  ppf->color_encoding.white_point = JXL_WHITE_POINT_D65;
  if (OpenEXR::hasChromaticities(input.header())) {
    ppf->color_encoding.primaries = JXL_PRIMARIES_CUSTOM;
    ppf->color_encoding.white_point = JXL_WHITE_POINT_CUSTOM;
    const auto& chromaticities = OpenEXR::chromaticities(input.header());
    ppf->color_encoding.primaries_red_xy[0] = chromaticities.red.x;
    ppf->color_encoding.primaries_red_xy[1] = chromaticities.red.y;
    ppf->color_encoding.primaries_green_xy[0] = chromaticities.green.x;
    ppf->color_encoding.primaries_green_xy[1] = chromaticities.green.y;
    ppf->color_encoding.primaries_blue_xy[0] = chromaticities.blue.x;
    ppf->color_encoding.primaries_blue_xy[1] = chromaticities.blue.y;
    ppf->color_encoding.white_point_xy[0] = chromaticities.white.x;
    ppf->color_encoding.white_point_xy[1] = chromaticities.white.y;
  }

  // EXR uses binary16 or binary32 floating point format.
  ppf->info.bits_per_sample = kExrBitsPerSample;
  ppf->info.exponent_bits_per_sample = kExrBitsPerSample == 16 ? 5 : 8;
  if (has_alpha) {
    ppf->info.alpha_bits = kExrAlphaBits;
    ppf->info.alpha_exponent_bits = ppf->info.exponent_bits_per_sample;
    ppf->info.alpha_premultiplied = JXL_TRUE;
  }
  ppf->info.intensity_target = intensity_target;
  return true;
}

}  // namespace extras
}  // namespace jxl

#endif  // JPEGXL_ENABLE_EXR