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|
// 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 <brotli/encode.h>
#include <jxl/codestream_header.h>
#include <jxl/encode.h>
#include <jxl/types.h>
#include <algorithm>
#include <cstddef>
#include <cstdint>
#include <cstring>
#include "lib/jxl/base/byte_order.h"
#include "lib/jxl/base/data_parallel.h"
#include "lib/jxl/base/span.h"
#include "lib/jxl/codec_in_out.h"
#include "lib/jxl/enc_aux_out.h"
#include "lib/jxl/enc_color_management.h"
#include "lib/jxl/enc_external_image.h"
#include "lib/jxl/enc_fast_lossless.h"
#include "lib/jxl/enc_fields.h"
#include "lib/jxl/enc_file.h"
#include "lib/jxl/enc_icc_codec.h"
#include "lib/jxl/enc_params.h"
#include "lib/jxl/encode_internal.h"
#include "lib/jxl/exif.h"
#include "lib/jxl/jpeg/enc_jpeg_data.h"
#include "lib/jxl/luminance.h"
#include "lib/jxl/sanitizers.h"
// Debug-printing failure macro similar to JXL_FAILURE, but for the status code
// JXL_ENC_ERROR
#ifdef JXL_CRASH_ON_ERROR
#define JXL_API_ERROR(enc, error_code, format, ...) \
(enc->error = error_code, \
::jxl::Debug(("%s:%d: " format "\n"), __FILE__, __LINE__, ##__VA_ARGS__), \
::jxl::Abort(), JXL_ENC_ERROR)
#define JXL_API_ERROR_NOSET(format, ...) \
(::jxl::Debug(("%s:%d: " format "\n"), __FILE__, __LINE__, ##__VA_ARGS__), \
::jxl::Abort(), JXL_ENC_ERROR)
#else // JXL_CRASH_ON_ERROR
#define JXL_API_ERROR(enc, error_code, format, ...) \
(enc->error = error_code, \
((JXL_DEBUG_ON_ERROR) && \
::jxl::Debug(("%s:%d: " format "\n"), __FILE__, __LINE__, ##__VA_ARGS__)), \
JXL_ENC_ERROR)
#define JXL_API_ERROR_NOSET(format, ...) \
(::jxl::Debug(("%s:%d: " format "\n"), __FILE__, __LINE__, ##__VA_ARGS__), \
JXL_ENC_ERROR)
#endif // JXL_CRASH_ON_ERROR
namespace jxl {} // namespace jxl
uint32_t JxlEncoderVersion(void) {
return JPEGXL_MAJOR_VERSION * 1000000 + JPEGXL_MINOR_VERSION * 1000 +
JPEGXL_PATCH_VERSION;
}
namespace {
template <typename T>
void AppendJxlpBoxCounter(uint32_t counter, bool last, T* output) {
if (last) counter |= 0x80000000;
for (size_t i = 0; i < 4; i++) {
output->push_back(counter >> (8 * (3 - i)) & 0xff);
}
}
void QueueFrame(
const JxlEncoderFrameSettings* frame_settings,
jxl::MemoryManagerUniquePtr<jxl::JxlEncoderQueuedFrame>& frame) {
if (frame_settings->values.lossless) {
frame->option_values.cparams.SetLossless();
}
jxl::JxlEncoderQueuedInput queued_input(frame_settings->enc->memory_manager);
queued_input.frame = std::move(frame);
frame_settings->enc->input_queue.emplace_back(std::move(queued_input));
frame_settings->enc->num_queued_frames++;
}
void QueueFastLosslessFrame(const JxlEncoderFrameSettings* frame_settings,
JxlFastLosslessFrameState* fast_lossless_frame) {
jxl::JxlEncoderQueuedInput queued_input(frame_settings->enc->memory_manager);
queued_input.fast_lossless_frame.reset(fast_lossless_frame);
frame_settings->enc->input_queue.emplace_back(std::move(queued_input));
frame_settings->enc->num_queued_frames++;
}
void QueueBox(JxlEncoder* enc,
jxl::MemoryManagerUniquePtr<jxl::JxlEncoderQueuedBox>& box) {
jxl::JxlEncoderQueuedInput queued_input(enc->memory_manager);
queued_input.box = std::move(box);
enc->input_queue.emplace_back(std::move(queued_input));
enc->num_queued_boxes++;
}
// TODO(lode): share this code and the Brotli compression code in enc_jpeg_data
JxlEncoderStatus BrotliCompress(int quality, const uint8_t* in, size_t in_size,
jxl::PaddedBytes* out) {
std::unique_ptr<BrotliEncoderState, decltype(BrotliEncoderDestroyInstance)*>
enc(BrotliEncoderCreateInstance(nullptr, nullptr, nullptr),
BrotliEncoderDestroyInstance);
if (!enc) return JXL_API_ERROR_NOSET("BrotliEncoderCreateInstance failed");
BrotliEncoderSetParameter(enc.get(), BROTLI_PARAM_QUALITY, quality);
BrotliEncoderSetParameter(enc.get(), BROTLI_PARAM_SIZE_HINT, in_size);
constexpr size_t kBufferSize = 128 * 1024;
jxl::PaddedBytes temp_buffer(kBufferSize);
size_t avail_in = in_size;
const uint8_t* next_in = in;
size_t total_out = 0;
for (;;) {
size_t avail_out = kBufferSize;
uint8_t* next_out = temp_buffer.data();
jxl::msan::MemoryIsInitialized(next_in, avail_in);
if (!BrotliEncoderCompressStream(enc.get(), BROTLI_OPERATION_FINISH,
&avail_in, &next_in, &avail_out, &next_out,
&total_out)) {
return JXL_API_ERROR_NOSET("Brotli compression failed");
}
size_t out_size = next_out - temp_buffer.data();
jxl::msan::UnpoisonMemory(next_out - out_size, out_size);
out->resize(out->size() + out_size);
memcpy(out->data() + out->size() - out_size, temp_buffer.data(), out_size);
if (BrotliEncoderIsFinished(enc.get())) break;
}
return JXL_ENC_SUCCESS;
}
// The JXL codestream can have level 5 or level 10. Levels have certain
// restrictions such as max allowed image dimensions. This function checks the
// level required to support the current encoder settings. The debug_string is
// intended to be used for developer API error messages, and may be set to
// nullptr.
int VerifyLevelSettings(const JxlEncoder* enc, std::string* debug_string) {
const auto& m = enc->metadata.m;
uint64_t xsize = enc->metadata.size.xsize();
uint64_t ysize = enc->metadata.size.ysize();
// The uncompressed ICC size, if it is used.
size_t icc_size = 0;
if (m.color_encoding.WantICC()) {
icc_size = m.color_encoding.ICC().size();
}
// Level 10 checks
if (xsize > (1ull << 30ull) || ysize > (1ull << 30ull) ||
xsize * ysize > (1ull << 40ull)) {
if (debug_string) *debug_string = "Too large image dimensions";
return -1;
}
if (icc_size > (1ull << 28)) {
if (debug_string) *debug_string = "Too large ICC profile size";
return -1;
}
if (m.num_extra_channels > 256) {
if (debug_string) *debug_string = "Too many extra channels";
return -1;
}
// Level 5 checks
if (!m.modular_16_bit_buffer_sufficient) {
if (debug_string) *debug_string = "Too high modular bit depth";
return 10;
}
if (xsize > (1ull << 18ull) || ysize > (1ull << 18ull) ||
xsize * ysize > (1ull << 28ull)) {
if (debug_string) *debug_string = "Too large image dimensions";
return 10;
}
if (icc_size > (1ull << 22)) {
if (debug_string) *debug_string = "Too large ICC profile";
return 10;
}
if (m.num_extra_channels > 4) {
if (debug_string) *debug_string = "Too many extra channels";
return 10;
}
for (size_t i = 0; i < m.extra_channel_info.size(); ++i) {
if (m.extra_channel_info[i].type == jxl::ExtraChannel::kBlack) {
if (debug_string) *debug_string = "CMYK channel not allowed";
return 10;
}
}
// TODO(lode): also need to check if consecutive composite-still frames total
// pixel amount doesn't exceed 2**28 in the case of level 5. This should be
// done when adding frame and requires ability to add composite still frames
// to be added first.
// TODO(lode): also need to check animation duration of a frame. This should
// be done when adding frame, but first requires implementing setting the
// JxlFrameHeader for a frame.
// TODO(lode): also need to check properties such as num_splines, num_patches,
// modular_16bit_buffers and multiple properties of modular trees. However
// these are not user-set properties so cannot be checked here, but decisions
// the C++ encoder should be able to make based on the level.
// All level 5 checks passes, so can return the more compatible level 5
return 5;
}
size_t BitsPerChannel(JxlDataType data_type) {
switch (data_type) {
case JXL_TYPE_UINT8:
return 8;
case JXL_TYPE_UINT16:
return 16;
case JXL_TYPE_FLOAT:
return 32;
case JXL_TYPE_FLOAT16:
return 16;
default:
return 0; // signals unhandled JxlDataType
}
}
template <typename T>
uint32_t GetBitDepth(JxlBitDepth bit_depth, const T& metadata,
JxlPixelFormat format) {
if (bit_depth.type == JXL_BIT_DEPTH_FROM_PIXEL_FORMAT) {
return BitsPerChannel(format.data_type);
} else if (bit_depth.type == JXL_BIT_DEPTH_FROM_CODESTREAM) {
return metadata.bit_depth.bits_per_sample;
} else if (bit_depth.type == JXL_BIT_DEPTH_CUSTOM) {
return bit_depth.bits_per_sample;
} else {
return 0;
}
}
JxlEncoderStatus CheckValidBitdepth(uint32_t bits_per_sample,
uint32_t exponent_bits_per_sample) {
if (!exponent_bits_per_sample) {
// The spec allows up to 31 for bits_per_sample here, but
// the code does not (yet) support it.
if (!(bits_per_sample > 0 && bits_per_sample <= 24)) {
return JXL_API_ERROR_NOSET("Invalid value for bits_per_sample");
}
} else if ((exponent_bits_per_sample > 8) ||
(bits_per_sample > 24 + exponent_bits_per_sample) ||
(bits_per_sample < 3 + exponent_bits_per_sample)) {
return JXL_API_ERROR_NOSET("Invalid float description");
}
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus VerifyInputBitDepth(JxlBitDepth bit_depth,
JxlPixelFormat format) {
if ((format.data_type == JXL_TYPE_FLOAT ||
format.data_type == JXL_TYPE_FLOAT16) &&
bit_depth.type != JXL_BIT_DEPTH_FROM_PIXEL_FORMAT) {
return JXL_API_ERROR_NOSET(
"Only JXL_BIT_DEPTH_FROM_PIXEL_FORMAT is "
"implemented for float types.");
}
return JXL_ENC_SUCCESS;
}
bool EncodeFrameIndexBox(const jxl::JxlEncoderFrameIndexBox& frame_index_box,
jxl::BitWriter& writer) {
bool ok = true;
int NF = 0;
for (size_t i = 0; i < frame_index_box.entries.size(); ++i) {
if (i == 0 || frame_index_box.entries[i].to_be_indexed) {
++NF;
}
}
// Frame index box contents varint + 8 bytes
// continue with NF * 3 * varint
// varint max length is 10 for 64 bit numbers, and these numbers
// are limited to 63 bits.
static const int kVarintMaxLength = 10;
static const int kFrameIndexBoxHeaderLength = kVarintMaxLength + 8;
static const int kFrameIndexBoxElementLength = 3 * kVarintMaxLength;
const int buffer_size =
kFrameIndexBoxHeaderLength + NF * kFrameIndexBoxElementLength;
std::vector<uint8_t> buffer_vec(buffer_size);
uint8_t* buffer = buffer_vec.data();
size_t output_pos = 0;
ok &= jxl::EncodeVarInt(NF, buffer_vec.size(), &output_pos, buffer);
StoreBE32(frame_index_box.TNUM, &buffer[output_pos]);
output_pos += 4;
StoreBE32(frame_index_box.TDEN, &buffer[output_pos]);
output_pos += 4;
// When we record a frame in the index, the record needs to know
// how many frames until the next indexed frame. That is why
// we store the 'prev' record. That 'prev' record needs to store
// the offset byte position to previously recorded indexed frame,
// that's why we also trace previous to the previous frame.
int prev_prev_ix = -1; // For position offset (OFFi) delta coding.
int prev_ix = 0;
int T_prev = 0;
int T = 0;
for (size_t i = 1; i < frame_index_box.entries.size(); ++i) {
if (frame_index_box.entries[i].to_be_indexed) {
// Now we can record the previous entry, since we need to store
// there how many frames until the next one.
int64_t OFFi = frame_index_box.entries[prev_ix].OFFi;
if (prev_prev_ix != -1) {
// Offi needs to be offset of start byte of this frame compared to start
// byte of previous frame from this index in the JPEG XL codestream. For
// the first frame, this is the offset from the first byte of the JPEG
// XL codestream.
OFFi -= frame_index_box.entries[prev_prev_ix].OFFi;
}
int32_t Ti = T_prev;
int32_t Fi = i - prev_ix;
ok &= jxl::EncodeVarInt(OFFi, buffer_vec.size(), &output_pos, buffer);
ok &= jxl::EncodeVarInt(Ti, buffer_vec.size(), &output_pos, buffer);
ok &= jxl::EncodeVarInt(Fi, buffer_vec.size(), &output_pos, buffer);
prev_prev_ix = prev_ix;
prev_ix = i;
T_prev = T;
T += frame_index_box.entries[i].duration;
}
}
{
// Last frame.
size_t i = frame_index_box.entries.size();
int64_t OFFi = frame_index_box.entries[prev_ix].OFFi;
if (prev_prev_ix != -1) {
OFFi -= frame_index_box.entries[prev_prev_ix].OFFi;
}
int32_t Ti = T_prev;
int32_t Fi = i - prev_ix;
ok &= jxl::EncodeVarInt(OFFi, buffer_vec.size(), &output_pos, buffer);
ok &= jxl::EncodeVarInt(Ti, buffer_vec.size(), &output_pos, buffer);
ok &= jxl::EncodeVarInt(Fi, buffer_vec.size(), &output_pos, buffer);
}
// Enough buffer has been allocated, this function should never fail in
// writing.
JXL_ASSERT(ok);
return ok;
}
} // namespace
JxlEncoderStatus JxlEncoderStruct::RefillOutputByteQueue() {
jxl::PaddedBytes bytes;
jxl::JxlEncoderQueuedInput& input = input_queue[0];
// TODO(lode): split this into 3 functions: for adding the signature and other
// initial headers (jbrd, ...), one for adding frame, and one for adding user
// box.
if (!wrote_bytes) {
// First time encoding any data, verify the level 5 vs level 10 settings
std::string level_message;
int required_level = VerifyLevelSettings(this, &level_message);
// Only level 5 and 10 are defined, and the function can return -1 to
// indicate full incompatibility.
JXL_ASSERT(required_level == -1 || required_level == 5 ||
required_level == 10);
// codestream_level == -1 means auto-set to the required level
if (codestream_level == -1) codestream_level = required_level;
if (codestream_level == 5 && required_level != 5) {
// If the required level is 10, return error rather than automatically
// setting the level to 10, to avoid inadvertently creating a level 10
// JXL file while intending to target a level 5 decoder.
return JXL_API_ERROR(
this, JXL_ENC_ERR_API_USAGE, "%s",
("Codestream level verification for level 5 failed: " + level_message)
.c_str());
}
if (required_level == -1) {
return JXL_API_ERROR(
this, JXL_ENC_ERR_API_USAGE, "%s",
("Codestream level verification for level 10 failed: " +
level_message)
.c_str());
}
jxl::BitWriter writer;
if (!WriteCodestreamHeaders(&metadata, &writer, nullptr)) {
return JXL_API_ERROR(this, JXL_ENC_ERR_GENERIC,
"Failed to write codestream header");
}
// Only send ICC (at least several hundred bytes) if fields aren't enough.
if (metadata.m.color_encoding.WantICC()) {
if (!jxl::WriteICC(metadata.m.color_encoding.ICC(), &writer,
jxl::kLayerHeader, nullptr)) {
return JXL_API_ERROR(this, JXL_ENC_ERR_GENERIC,
"Failed to write ICC profile");
}
}
// TODO(lode): preview should be added here if a preview image is added
writer.ZeroPadToByte();
// Not actually the end of frame, but the end of metadata/ICC, but helps
// the next frame to start here for indexing purposes.
codestream_bytes_written_end_of_frame +=
jxl::DivCeil(writer.BitsWritten(), 8);
bytes = std::move(writer).TakeBytes();
if (MustUseContainer()) {
// Add "JXL " and ftyp box.
output_byte_queue.insert(
output_byte_queue.end(), jxl::kContainerHeader,
jxl::kContainerHeader + sizeof(jxl::kContainerHeader));
if (codestream_level != 5) {
// Add jxll box directly after the ftyp box to indicate the codestream
// level.
output_byte_queue.insert(
output_byte_queue.end(), jxl::kLevelBoxHeader,
jxl::kLevelBoxHeader + sizeof(jxl::kLevelBoxHeader));
output_byte_queue.push_back(codestream_level);
}
// Whether to write the basic info and color profile header of the
// codestream into an early separate jxlp box, so that it comes before
// metadata or jpeg reconstruction boxes. In theory this could simply
// always be done, but there's no reason to add an extra box with box
// header overhead if the codestream will already come immediately after
// the signature and level boxes.
bool partial_header =
store_jpeg_metadata ||
(use_boxes && (!input.frame && !input.fast_lossless_frame));
if (partial_header) {
jxl::AppendBoxHeader(jxl::MakeBoxType("jxlp"), bytes.size() + 4,
/*unbounded=*/false, &output_byte_queue);
AppendJxlpBoxCounter(jxlp_counter++, /*last=*/false,
&output_byte_queue);
output_byte_queue.insert(output_byte_queue.end(), bytes.data(),
bytes.data() + bytes.size());
bytes.clear();
}
if (store_jpeg_metadata && !jpeg_metadata.empty()) {
jxl::AppendBoxHeader(jxl::MakeBoxType("jbrd"), jpeg_metadata.size(),
false, &output_byte_queue);
output_byte_queue.insert(output_byte_queue.end(), jpeg_metadata.begin(),
jpeg_metadata.end());
}
}
wrote_bytes = true;
}
// Choose frame or box processing: exactly one of the two unique pointers (box
// or frame) in the input queue item is non-null.
if (input.frame || input.fast_lossless_frame) {
jxl::MemoryManagerUniquePtr<jxl::JxlEncoderQueuedFrame> input_frame =
std::move(input.frame);
if (input.fast_lossless_frame) {
output_fast_frame_queue.push_back(std::move(input.fast_lossless_frame));
}
input_queue.erase(input_queue.begin());
num_queued_frames--;
if (input_frame) {
for (unsigned idx = 0; idx < input_frame->ec_initialized.size(); idx++) {
if (!input_frame->ec_initialized[idx]) {
return JXL_API_ERROR(this, JXL_ENC_ERR_API_USAGE,
"Extra channel %u is not initialized", idx);
}
}
// TODO(zond): If the input queue is empty and the frames_closed is true,
// then mark this frame as the last.
// TODO(zond): Handle progressive mode like EncodeFile does it.
// TODO(zond): Handle animation like EncodeFile does it, by checking if
// JxlEncoderCloseFrames has been called and if the frame
// queue is empty (to see if it's the last animation frame).
if (metadata.m.xyb_encoded) {
input_frame->option_values.cparams.color_transform =
jxl::ColorTransform::kXYB;
} else {
// TODO(zond): Figure out when to use kYCbCr instead.
input_frame->option_values.cparams.color_transform =
jxl::ColorTransform::kNone;
}
}
uint32_t duration;
uint32_t timecode;
if (input_frame && metadata.m.have_animation) {
duration = input_frame->option_values.header.duration;
timecode = input_frame->option_values.header.timecode;
} else {
// If have_animation is false, the encoder should ignore the duration and
// timecode values. However, assigning them to ib will cause the encoder
// to write an invalid frame header that can't be decoded so ensure
// they're the default value of 0 here.
duration = 0;
timecode = 0;
}
bool last_frame = frames_closed && !num_queued_frames;
size_t codestream_byte_size = 0;
jxl::BitWriter writer;
if (input_frame) {
jxl::PassesEncoderState enc_state;
frame_index_box.AddFrame(codestream_bytes_written_end_of_frame, duration,
input_frame->option_values.frame_index_box);
// EncodeFrame creates jxl::FrameHeader object internally based on the
// FrameInfo, imagebundle, cparams and metadata. Copy the information to
// these.
jxl::ImageBundle& ib = input_frame->frame;
ib.duration = duration;
ib.timecode = timecode;
ib.name = input_frame->option_values.frame_name;
ib.blendmode = static_cast<jxl::BlendMode>(
input_frame->option_values.header.layer_info.blend_info.blendmode);
ib.blend =
input_frame->option_values.header.layer_info.blend_info.blendmode !=
JXL_BLEND_REPLACE;
size_t save_as_reference =
input_frame->option_values.header.layer_info.save_as_reference;
if (save_as_reference >= 3) {
return JXL_API_ERROR(
this, JXL_ENC_ERR_API_USAGE,
"Cannot use save_as_reference values >=3 (found: %d)",
(int)save_as_reference);
}
ib.use_for_next_frame = !!save_as_reference;
jxl::FrameInfo frame_info;
frame_info.is_last = last_frame;
frame_info.save_as_reference = save_as_reference;
frame_info.source =
input_frame->option_values.header.layer_info.blend_info.source;
frame_info.clamp =
input_frame->option_values.header.layer_info.blend_info.clamp;
frame_info.alpha_channel =
input_frame->option_values.header.layer_info.blend_info.alpha;
frame_info.extra_channel_blending_info.resize(
metadata.m.num_extra_channels);
// If extra channel blend info has not been set, use the blend mode from
// the layer_info.
JxlBlendInfo default_blend_info =
input_frame->option_values.header.layer_info.blend_info;
for (size_t i = 0; i < metadata.m.num_extra_channels; ++i) {
auto& to = frame_info.extra_channel_blending_info[i];
const auto& from =
i < input_frame->option_values.extra_channel_blend_info.size()
? input_frame->option_values.extra_channel_blend_info[i]
: default_blend_info;
to.mode = static_cast<jxl::BlendMode>(from.blendmode);
to.source = from.source;
to.alpha_channel = from.alpha;
to.clamp = (from.clamp != 0);
}
if (input_frame->option_values.header.layer_info.have_crop) {
ib.origin.x0 = input_frame->option_values.header.layer_info.crop_x0;
ib.origin.y0 = input_frame->option_values.header.layer_info.crop_y0;
}
JXL_ASSERT(writer.BitsWritten() == 0);
if (!jxl::EncodeFrame(input_frame->option_values.cparams, frame_info,
&metadata, input_frame->frame, &enc_state, cms,
thread_pool.get(), &writer,
/*aux_out=*/nullptr)) {
return JXL_API_ERROR(this, JXL_ENC_ERR_GENERIC,
"Failed to encode frame");
}
codestream_bytes_written_beginning_of_frame =
codestream_bytes_written_end_of_frame;
codestream_bytes_written_end_of_frame +=
jxl::DivCeil(writer.BitsWritten(), 8);
// Possibly bytes already contains the codestream header: in case this is
// the first frame, and the codestream header was not encoded as jxlp
// above.
bytes.append(std::move(writer).TakeBytes());
codestream_byte_size = bytes.size();
} else {
JXL_CHECK(!output_fast_frame_queue.empty());
JxlFastLosslessPrepareHeader(output_fast_frame_queue.front().get(),
/*add_image_header=*/0, last_frame);
codestream_byte_size =
JxlFastLosslessOutputSize(output_fast_frame_queue.front().get()) +
bytes.size();
}
if (MustUseContainer()) {
if (last_frame && jxlp_counter == 0) {
// If this is the last frame and no jxlp boxes were used yet, it's
// slighly more efficient to write a jxlc box since it has 4 bytes
// less overhead.
jxl::AppendBoxHeader(jxl::MakeBoxType("jxlc"), codestream_byte_size,
/*unbounded=*/false, &output_byte_queue);
} else {
jxl::AppendBoxHeader(jxl::MakeBoxType("jxlp"), codestream_byte_size + 4,
/*unbounded=*/false, &output_byte_queue);
AppendJxlpBoxCounter(jxlp_counter++, last_frame, &output_byte_queue);
}
}
output_byte_queue.insert(output_byte_queue.end(), bytes.data(),
bytes.data() + bytes.size());
if (input_frame) {
last_used_cparams = input_frame->option_values.cparams;
}
if (last_frame && frame_index_box.StoreFrameIndexBox()) {
bytes.clear();
EncodeFrameIndexBox(frame_index_box, writer);
jxl::AppendBoxHeader(jxl::MakeBoxType("jxli"), bytes.size(),
/*unbounded=*/false, &output_byte_queue);
}
} else {
// Not a frame, so is a box instead
jxl::MemoryManagerUniquePtr<jxl::JxlEncoderQueuedBox> box =
std::move(input.box);
input_queue.erase(input_queue.begin());
num_queued_boxes--;
if (box->compress_box) {
jxl::PaddedBytes compressed(4);
// Prepend the original box type in the brob box contents
for (size_t i = 0; i < 4; i++) {
compressed[i] = static_cast<uint8_t>(box->type[i]);
}
if (JXL_ENC_SUCCESS !=
BrotliCompress((brotli_effort >= 0 ? brotli_effort : 4),
box->contents.data(), box->contents.size(),
&compressed)) {
return JXL_API_ERROR(this, JXL_ENC_ERR_GENERIC,
"Brotli compression for brob box failed");
}
jxl::AppendBoxHeader(jxl::MakeBoxType("brob"), compressed.size(), false,
&output_byte_queue);
output_byte_queue.insert(output_byte_queue.end(), compressed.data(),
compressed.data() + compressed.size());
} else {
jxl::AppendBoxHeader(box->type, box->contents.size(), false,
&output_byte_queue);
output_byte_queue.insert(output_byte_queue.end(), box->contents.data(),
box->contents.data() + box->contents.size());
}
}
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderSetColorEncoding(JxlEncoder* enc,
const JxlColorEncoding* color) {
if (!enc->basic_info_set) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE, "Basic info not yet set");
}
if (enc->color_encoding_set) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"Color encoding is already set");
}
if (!jxl::ConvertExternalToInternalColorEncoding(
*color, &enc->metadata.m.color_encoding)) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_GENERIC, "Error in color conversion");
}
if (enc->metadata.m.color_encoding.GetColorSpace() ==
jxl::ColorSpace::kGray) {
if (enc->basic_info.num_color_channels != 1)
return JXL_API_ERROR(
enc, JXL_ENC_ERR_API_USAGE,
"Cannot use grayscale color encoding with num_color_channels != 1");
} else {
if (enc->basic_info.num_color_channels != 3)
return JXL_API_ERROR(
enc, JXL_ENC_ERR_API_USAGE,
"Cannot use RGB color encoding with num_color_channels != 3");
}
enc->color_encoding_set = true;
if (!enc->intensity_target_set) {
jxl::SetIntensityTarget(&enc->metadata.m);
}
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderSetICCProfile(JxlEncoder* enc,
const uint8_t* icc_profile,
size_t size) {
if (!enc->basic_info_set) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE, "Basic info not yet set");
}
if (enc->color_encoding_set) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"ICC profile is already set");
}
jxl::PaddedBytes icc;
icc.assign(icc_profile, icc_profile + size);
if (!enc->metadata.m.color_encoding.SetICC(std::move(icc))) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_BAD_INPUT,
"ICC profile could not be set");
}
if (enc->metadata.m.color_encoding.GetColorSpace() ==
jxl::ColorSpace::kGray) {
if (enc->basic_info.num_color_channels != 1)
return JXL_API_ERROR(
enc, JXL_ENC_ERR_BAD_INPUT,
"Cannot use grayscale ICC profile with num_color_channels != 1");
} else {
if (enc->basic_info.num_color_channels != 3)
return JXL_API_ERROR(
enc, JXL_ENC_ERR_BAD_INPUT,
"Cannot use RGB ICC profile with num_color_channels != 3");
// TODO(jon): also check that a kBlack extra channel is provided in the CMYK
// case
}
enc->color_encoding_set = true;
if (!enc->intensity_target_set) {
jxl::SetIntensityTarget(&enc->metadata.m);
}
if (!enc->basic_info.uses_original_profile) {
enc->metadata.m.color_encoding.DecideIfWantICC();
}
return JXL_ENC_SUCCESS;
}
void JxlEncoderInitBasicInfo(JxlBasicInfo* info) {
info->have_container = JXL_FALSE;
info->xsize = 0;
info->ysize = 0;
info->bits_per_sample = 8;
info->exponent_bits_per_sample = 0;
info->intensity_target = 0.f;
info->min_nits = 0.f;
info->relative_to_max_display = JXL_FALSE;
info->linear_below = 0.f;
info->uses_original_profile = JXL_FALSE;
info->have_preview = JXL_FALSE;
info->have_animation = JXL_FALSE;
info->orientation = JXL_ORIENT_IDENTITY;
info->num_color_channels = 3;
info->num_extra_channels = 0;
info->alpha_bits = 0;
info->alpha_exponent_bits = 0;
info->alpha_premultiplied = JXL_FALSE;
info->preview.xsize = 0;
info->preview.ysize = 0;
info->intrinsic_xsize = 0;
info->intrinsic_ysize = 0;
info->animation.tps_numerator = 10;
info->animation.tps_denominator = 1;
info->animation.num_loops = 0;
info->animation.have_timecodes = JXL_FALSE;
}
void JxlEncoderInitFrameHeader(JxlFrameHeader* frame_header) {
// For each field, the default value of the specification is used. Depending
// on whether an animation frame, or a composite still blending frame,
// is used, different fields have to be set up by the user after initing
// the frame header.
frame_header->duration = 0;
frame_header->timecode = 0;
frame_header->name_length = 0;
// In the specification, the default value of is_last is !frame_type, and the
// default frame_type is kRegularFrame which has value 0, so is_last is true
// by default. However, the encoder does not use this value (the field exists
// for the decoder to set) since last frame is determined by usage of
// JxlEncoderCloseFrames instead.
frame_header->is_last = JXL_TRUE;
frame_header->layer_info.have_crop = JXL_FALSE;
frame_header->layer_info.crop_x0 = 0;
frame_header->layer_info.crop_y0 = 0;
// These must be set if have_crop is enabled, but the default value has
// have_crop false, and these dimensions 0. The user must set these to the
// desired size after enabling have_crop (which is not yet implemented).
frame_header->layer_info.xsize = 0;
frame_header->layer_info.ysize = 0;
JxlEncoderInitBlendInfo(&frame_header->layer_info.blend_info);
frame_header->layer_info.save_as_reference = 0;
}
void JxlEncoderInitBlendInfo(JxlBlendInfo* blend_info) {
// Default blend mode in the specification is 0. Note that combining
// blend mode of replace with a duration is not useful, but the user has to
// manually set duration in case of animation, or manually change the blend
// mode in case of composite stills, so initing to a combination that is not
// useful on its own is not an issue.
blend_info->blendmode = JXL_BLEND_REPLACE;
blend_info->source = 0;
blend_info->alpha = 0;
blend_info->clamp = 0;
}
JxlEncoderStatus JxlEncoderSetBasicInfo(JxlEncoder* enc,
const JxlBasicInfo* info) {
if (!enc->metadata.size.Set(info->xsize, info->ysize)) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE, "Invalid dimensions");
}
if (JXL_ENC_SUCCESS != CheckValidBitdepth(info->bits_per_sample,
info->exponent_bits_per_sample)) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE, "Invalid bit depth");
}
enc->metadata.m.bit_depth.bits_per_sample = info->bits_per_sample;
enc->metadata.m.bit_depth.exponent_bits_per_sample =
info->exponent_bits_per_sample;
enc->metadata.m.bit_depth.floating_point_sample =
(info->exponent_bits_per_sample != 0u);
enc->metadata.m.modular_16_bit_buffer_sufficient =
(!info->uses_original_profile || info->bits_per_sample <= 12) &&
info->alpha_bits <= 12;
if ((info->intrinsic_xsize > 0 || info->intrinsic_ysize > 0) &&
(info->intrinsic_xsize != info->xsize ||
info->intrinsic_ysize != info->ysize)) {
if (info->intrinsic_xsize > (1ull << 30ull) ||
info->intrinsic_ysize > (1ull << 30ull) ||
!enc->metadata.m.intrinsic_size.Set(info->intrinsic_xsize,
info->intrinsic_ysize)) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"Invalid intrinsic dimensions");
}
enc->metadata.m.have_intrinsic_size = true;
}
// The number of extra channels includes the alpha channel, so for example and
// RGBA with no other extra channels, has exactly num_extra_channels == 1
enc->metadata.m.num_extra_channels = info->num_extra_channels;
enc->metadata.m.extra_channel_info.resize(enc->metadata.m.num_extra_channels);
if (info->num_extra_channels == 0 && info->alpha_bits) {
return JXL_API_ERROR(
enc, JXL_ENC_ERR_API_USAGE,
"when alpha_bits is non-zero, the number of channels must be at least "
"1");
}
// If the user provides non-zero alpha_bits, we make the channel info at index
// zero the appropriate alpha channel.
if (info->alpha_bits) {
JxlExtraChannelInfo channel_info;
JxlEncoderInitExtraChannelInfo(JXL_CHANNEL_ALPHA, &channel_info);
channel_info.bits_per_sample = info->alpha_bits;
channel_info.exponent_bits_per_sample = info->alpha_exponent_bits;
if (JxlEncoderSetExtraChannelInfo(enc, 0, &channel_info)) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"Problem setting extra channel info for alpha");
}
}
enc->metadata.m.xyb_encoded = !info->uses_original_profile;
if (info->orientation > 0 && info->orientation <= 8) {
enc->metadata.m.orientation = info->orientation;
} else {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"Invalid value for orientation field");
}
if (info->num_color_channels != 1 && info->num_color_channels != 3) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"Invalid number of color channels");
}
if (info->intensity_target != 0) {
enc->metadata.m.SetIntensityTarget(info->intensity_target);
enc->intensity_target_set = true;
} else if (enc->color_encoding_set) {
// If this is false, JxlEncoderSetColorEncoding will be called later and we
// will get one more chance to call jxl::SetIntensityTarget, after the color
// encoding is indeed set.
jxl::SetIntensityTarget(&enc->metadata.m);
enc->intensity_target_set = true;
}
enc->metadata.m.tone_mapping.min_nits = info->min_nits;
enc->metadata.m.tone_mapping.relative_to_max_display =
info->relative_to_max_display;
enc->metadata.m.tone_mapping.linear_below = info->linear_below;
enc->basic_info = *info;
enc->basic_info_set = true;
enc->metadata.m.have_animation = info->have_animation;
if (info->have_animation) {
if (info->animation.tps_denominator < 1) {
return JXL_API_ERROR(
enc, JXL_ENC_ERR_API_USAGE,
"If animation is used, tps_denominator must be >= 1");
}
if (info->animation.tps_numerator < 1) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"If animation is used, tps_numerator must be >= 1");
}
enc->metadata.m.animation.tps_numerator = info->animation.tps_numerator;
enc->metadata.m.animation.tps_denominator = info->animation.tps_denominator;
enc->metadata.m.animation.num_loops = info->animation.num_loops;
enc->metadata.m.animation.have_timecodes = info->animation.have_timecodes;
}
std::string level_message;
int required_level = VerifyLevelSettings(enc, &level_message);
if (required_level == -1 ||
(static_cast<int>(enc->codestream_level) < required_level &&
enc->codestream_level != -1)) {
return JXL_API_ERROR(
enc, JXL_ENC_ERR_API_USAGE, "%s",
("Codestream level verification for level " +
std::to_string(enc->codestream_level) + " failed: " + level_message)
.c_str());
}
return JXL_ENC_SUCCESS;
}
void JxlEncoderInitExtraChannelInfo(JxlExtraChannelType type,
JxlExtraChannelInfo* info) {
info->type = type;
info->bits_per_sample = 8;
info->exponent_bits_per_sample = 0;
info->dim_shift = 0;
info->name_length = 0;
info->alpha_premultiplied = JXL_FALSE;
info->spot_color[0] = 0;
info->spot_color[1] = 0;
info->spot_color[2] = 0;
info->spot_color[3] = 0;
info->cfa_channel = 0;
}
JXL_EXPORT JxlEncoderStatus JxlEncoderSetExtraChannelInfo(
JxlEncoder* enc, size_t index, const JxlExtraChannelInfo* info) {
if (index >= enc->metadata.m.num_extra_channels) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"Invalid value for the index of extra channel");
}
if (JXL_ENC_SUCCESS != CheckValidBitdepth(info->bits_per_sample,
info->exponent_bits_per_sample)) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE, "Invalid bit depth");
}
jxl::ExtraChannelInfo& channel = enc->metadata.m.extra_channel_info[index];
channel.type = static_cast<jxl::ExtraChannel>(info->type);
channel.bit_depth.bits_per_sample = info->bits_per_sample;
enc->metadata.m.modular_16_bit_buffer_sufficient &=
info->bits_per_sample <= 12;
channel.bit_depth.exponent_bits_per_sample = info->exponent_bits_per_sample;
channel.bit_depth.floating_point_sample = info->exponent_bits_per_sample != 0;
channel.dim_shift = info->dim_shift;
channel.name = "";
channel.alpha_associated = (info->alpha_premultiplied != 0);
channel.cfa_channel = info->cfa_channel;
channel.spot_color[0] = info->spot_color[0];
channel.spot_color[1] = info->spot_color[1];
channel.spot_color[2] = info->spot_color[2];
channel.spot_color[3] = info->spot_color[3];
std::string level_message;
int required_level = VerifyLevelSettings(enc, &level_message);
if (required_level == -1 ||
(static_cast<int>(enc->codestream_level) < required_level &&
enc->codestream_level != -1)) {
return JXL_API_ERROR(
enc, JXL_ENC_ERR_API_USAGE, "%s",
("Codestream level verification for level " +
std::to_string(enc->codestream_level) + " failed: " + level_message)
.c_str());
}
return JXL_ENC_SUCCESS;
}
JXL_EXPORT JxlEncoderStatus JxlEncoderSetExtraChannelName(JxlEncoder* enc,
size_t index,
const char* name,
size_t size) {
if (index >= enc->metadata.m.num_extra_channels) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"Invalid value for the index of extra channel");
}
enc->metadata.m.extra_channel_info[index].name =
std::string(name, name + size);
return JXL_ENC_SUCCESS;
}
JxlEncoderFrameSettings* JxlEncoderFrameSettingsCreate(
JxlEncoder* enc, const JxlEncoderFrameSettings* source) {
auto opts = jxl::MemoryManagerMakeUnique<JxlEncoderFrameSettings>(
&enc->memory_manager);
if (!opts) return nullptr;
opts->enc = enc;
if (source != nullptr) {
opts->values = source->values;
} else {
opts->values.lossless = false;
}
opts->values.cparams.level = enc->codestream_level;
opts->values.cparams.ec_distance.resize(enc->metadata.m.num_extra_channels,
-1);
JxlEncoderFrameSettings* ret = opts.get();
enc->encoder_options.emplace_back(std::move(opts));
return ret;
}
JxlEncoderFrameSettings* JxlEncoderOptionsCreate(
JxlEncoder* enc, const JxlEncoderFrameSettings* source) {
// Deprecated function name, call the non-deprecated function
return JxlEncoderFrameSettingsCreate(enc, source);
}
JxlEncoderStatus JxlEncoderSetFrameLossless(
JxlEncoderFrameSettings* frame_settings, const JXL_BOOL lossless) {
if (lossless && frame_settings->enc->basic_info_set &&
frame_settings->enc->metadata.m.xyb_encoded) {
return JXL_API_ERROR(
frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Set uses_original_profile=true for lossless encoding");
}
frame_settings->values.lossless = lossless;
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderOptionsSetLossless(
JxlEncoderFrameSettings* frame_settings, JXL_BOOL lossless) {
// Deprecated function name, call the non-deprecated function
return JxlEncoderSetFrameLossless(frame_settings, lossless);
}
JxlEncoderStatus JxlEncoderOptionsSetEffort(
JxlEncoderFrameSettings* frame_settings, const int effort) {
return JxlEncoderFrameSettingsSetOption(frame_settings,
JXL_ENC_FRAME_SETTING_EFFORT, effort);
}
JxlEncoderStatus JxlEncoderSetFrameDistance(
JxlEncoderFrameSettings* frame_settings, float distance) {
if (distance < 0.f || distance > 25.f) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Distance has to be in [0.0..25.0] (corresponding to "
"quality in [0.0..100.0])");
}
if (distance > 0.f && distance < 0.01f) {
distance = 0.01f;
}
frame_settings->values.cparams.butteraugli_distance = distance;
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderSetExtraChannelDistance(
JxlEncoderFrameSettings* frame_settings, size_t index, float distance) {
if (index >= frame_settings->enc->metadata.m.num_extra_channels) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Invalid value for the index of extra channel");
}
if (distance != -1.f && (distance < 0.f || distance > 25.f)) {
return JXL_API_ERROR(
frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Distance has to be -1 or in [0.0..25.0] (corresponding to "
"quality in [0.0..100.0])");
}
if (distance > 0.f && distance < 0.01f) {
distance = 0.01f;
}
if (index >= frame_settings->values.cparams.ec_distance.size()) {
// This can only happen if JxlEncoderFrameSettingsCreate() was called before
// JxlEncoderSetBasicInfo().
frame_settings->values.cparams.ec_distance.resize(
frame_settings->enc->metadata.m.num_extra_channels, -1);
}
frame_settings->values.cparams.ec_distance[index] = distance;
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderOptionsSetDistance(
JxlEncoderFrameSettings* frame_settings, float distance) {
// Deprecated function name, call the non-deprecated function
return JxlEncoderSetFrameDistance(frame_settings, distance);
}
JxlEncoderStatus JxlEncoderOptionsSetDecodingSpeed(
JxlEncoderFrameSettings* frame_settings, int tier) {
return JxlEncoderFrameSettingsSetOption(
frame_settings, JXL_ENC_FRAME_SETTING_DECODING_SPEED, tier);
}
JxlEncoderStatus JxlEncoderFrameSettingsSetOption(
JxlEncoderFrameSettings* frame_settings, JxlEncoderFrameSettingId option,
int64_t value) {
// check if value is -1, 0 or 1 for Override-type options
switch (option) {
case JXL_ENC_FRAME_SETTING_NOISE:
case JXL_ENC_FRAME_SETTING_DOTS:
case JXL_ENC_FRAME_SETTING_PATCHES:
case JXL_ENC_FRAME_SETTING_GABORISH:
case JXL_ENC_FRAME_SETTING_MODULAR:
case JXL_ENC_FRAME_SETTING_KEEP_INVISIBLE:
case JXL_ENC_FRAME_SETTING_GROUP_ORDER:
case JXL_ENC_FRAME_SETTING_RESPONSIVE:
case JXL_ENC_FRAME_SETTING_PROGRESSIVE_AC:
case JXL_ENC_FRAME_SETTING_QPROGRESSIVE_AC:
case JXL_ENC_FRAME_SETTING_LOSSY_PALETTE:
case JXL_ENC_FRAME_SETTING_JPEG_RECON_CFL:
case JXL_ENC_FRAME_SETTING_JPEG_COMPRESS_BOXES:
if (value < -1 || value > 1) {
return JXL_API_ERROR(
frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be -1 (default), 0 (off) or 1 (on)");
}
break;
default:
break;
}
switch (option) {
case JXL_ENC_FRAME_SETTING_EFFORT:
if (frame_settings->enc->allow_expert_options) {
if (value < 1 || value > 10) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_NOT_SUPPORTED,
"Encode effort has to be in [1..10]");
}
} else {
if (value < 1 || value > 9) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_NOT_SUPPORTED,
"Encode effort has to be in [1..9]");
}
}
frame_settings->values.cparams.speed_tier =
static_cast<jxl::SpeedTier>(10 - value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_BROTLI_EFFORT:
if (value < -1 || value > 11) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Brotli effort has to be in [-1..11]");
}
// set cparams for brotli use in JPEG frames
frame_settings->values.cparams.brotli_effort = value;
// set enc option for brotli use in brob boxes
frame_settings->enc->brotli_effort = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_DECODING_SPEED:
if (value < 0 || value > 4) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_NOT_SUPPORTED,
"Decoding speed has to be in [0..4]");
}
frame_settings->values.cparams.decoding_speed_tier = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_RESAMPLING:
if (value != -1 && value != 1 && value != 2 && value != 4 && value != 8) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Resampling factor has to be 1, 2, 4 or 8");
}
frame_settings->values.cparams.resampling = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_EXTRA_CHANNEL_RESAMPLING:
// TODO(lode): the jxl codestream allows choosing a different resampling
// factor for each extra channel, independently per frame. Move this
// option to a JxlEncoderFrameSettings-option that can be set per extra
// channel, so needs its own function rather than
// JxlEncoderFrameSettingsSetOption due to the extra channel index
// argument required.
if (value != -1 && value != 1 && value != 2 && value != 4 && value != 8) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Resampling factor has to be 1, 2, 4 or 8");
}
frame_settings->values.cparams.ec_resampling = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_ALREADY_DOWNSAMPLED:
if (value < 0 || value > 1) {
return JXL_ENC_ERROR;
}
frame_settings->values.cparams.already_downsampled = (value == 1);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_NOISE:
frame_settings->values.cparams.noise = static_cast<jxl::Override>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_DOTS:
frame_settings->values.cparams.dots = static_cast<jxl::Override>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_PATCHES:
frame_settings->values.cparams.patches =
static_cast<jxl::Override>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_EPF:
if (value < -1 || value > 3) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"EPF value has to be in [-1..3]");
}
frame_settings->values.cparams.epf = static_cast<int>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_GABORISH:
frame_settings->values.cparams.gaborish =
static_cast<jxl::Override>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_MODULAR:
frame_settings->values.cparams.modular_mode = (value == 1);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_KEEP_INVISIBLE:
frame_settings->values.cparams.keep_invisible =
static_cast<jxl::Override>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_GROUP_ORDER:
frame_settings->values.cparams.centerfirst = (value == 1);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_GROUP_ORDER_CENTER_X:
if (value < -1) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Center x coordinate has to be -1 or positive");
}
frame_settings->values.cparams.center_x = static_cast<size_t>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_GROUP_ORDER_CENTER_Y:
if (value < -1) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Center y coordinate has to be -1 or positive");
}
frame_settings->values.cparams.center_y = static_cast<size_t>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_RESPONSIVE:
frame_settings->values.cparams.responsive = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_PROGRESSIVE_AC:
frame_settings->values.cparams.progressive_mode = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_QPROGRESSIVE_AC:
frame_settings->values.cparams.qprogressive_mode = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_PROGRESSIVE_DC:
if (value < -1 || value > 2) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Progressive DC has to be in [-1..2]");
}
frame_settings->values.cparams.progressive_dc = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_PALETTE_COLORS:
if (value < -1 || value > 70913) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be in [-1..70913]");
}
if (value == -1) {
frame_settings->values.cparams.palette_colors = 1 << 10;
} else {
frame_settings->values.cparams.palette_colors = value;
}
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_LOSSY_PALETTE:
// TODO(lode): the defaults of some palette settings depend on others.
// See the logic in cjxl. Similar for other settings. This should be
// handled in the encoder during JxlEncoderProcessOutput (or,
// alternatively, in the cjxl binary like now)
frame_settings->values.cparams.lossy_palette = (value == 1);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_COLOR_TRANSFORM:
if (value < -1 || value > 2) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be in [-1..2]");
}
if (value == -1) {
frame_settings->values.cparams.color_transform =
jxl::ColorTransform::kXYB;
} else {
frame_settings->values.cparams.color_transform =
static_cast<jxl::ColorTransform>(value);
}
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_MODULAR_COLOR_SPACE:
if (value < -1 || value > 41) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be in [-1..41]");
}
frame_settings->values.cparams.colorspace = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_MODULAR_GROUP_SIZE:
if (value < -1 || value > 3) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be in [-1..3]");
}
// TODO(lode): the default behavior of this parameter for cjxl is
// to choose 1 or 2 depending on the situation. This behavior needs to be
// implemented either in the C++ library by allowing to set this to -1, or
// kept in cjxl and set it to 1 or 2 using this API.
if (value == -1) {
frame_settings->values.cparams.modular_group_size_shift = 1;
} else {
frame_settings->values.cparams.modular_group_size_shift = value;
}
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_MODULAR_PREDICTOR:
if (value < -1 || value > 15) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be in [-1..15]");
}
frame_settings->values.cparams.options.predictor =
static_cast<jxl::Predictor>(value);
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_MODULAR_NB_PREV_CHANNELS:
// The max allowed value can in theory be higher. However, it depends on
// the effort setting. 11 is the highest safe value that doesn't cause
// tree_samples to be >= 64 in the encoder. The specification may allow
// more than this. With more fine tuning higher values could be allowed.
// For N-channel images, the largest useful value is N-1.
if (value < -1 || value > 11) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be in [-1..11]");
}
if (value == -1) {
frame_settings->values.cparams.options.max_properties = 0;
} else {
frame_settings->values.cparams.options.max_properties = value;
}
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_JPEG_RECON_CFL:
if (value == -1) {
frame_settings->values.cparams.force_cfl_jpeg_recompression = true;
} else {
frame_settings->values.cparams.force_cfl_jpeg_recompression = value;
}
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_INDEX_BOX:
frame_settings->values.frame_index_box = true;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_PHOTON_NOISE:
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_NOT_SUPPORTED,
"Float option, try setting it with "
"JxlEncoderFrameSettingsSetFloatOption");
case JXL_ENC_FRAME_SETTING_JPEG_COMPRESS_BOXES:
frame_settings->values.cparams.jpeg_compress_boxes = value;
return JXL_ENC_SUCCESS;
default:
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_NOT_SUPPORTED,
"Unknown option");
}
}
JxlEncoderStatus JxlEncoderFrameSettingsSetFloatOption(
JxlEncoderFrameSettings* frame_settings, JxlEncoderFrameSettingId option,
float value) {
switch (option) {
case JXL_ENC_FRAME_SETTING_PHOTON_NOISE:
if (value < 0) return JXL_ENC_ERROR;
// TODO(lode): add encoder setting to set the 8 floating point values of
// the noise synthesis parameters per frame for more fine grained control.
frame_settings->values.cparams.photon_noise_iso = value;
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_MODULAR_MA_TREE_LEARNING_PERCENT:
if (value < -1.f || value > 100.f) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be smaller than 100");
}
// This value is called "iterations" or "nb_repeats" in cjxl, but is in
// fact a fraction in range 0.0-1.0, with the default value 0.5.
// Convert from floating point percentage to floating point fraction here.
if (value < -.5f) {
// TODO(lode): for this and many other settings (also in
// JxlEncoderFrameSettingsSetOption), avoid duplicating the default
// values here and in enc_params.h and options.h, have one location
// where the defaults are specified.
frame_settings->values.cparams.options.nb_repeats = 0.5f;
} else {
frame_settings->values.cparams.options.nb_repeats = value * 0.01f;
}
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_CHANNEL_COLORS_GLOBAL_PERCENT:
if (value < -1.f || value > 100.f) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be in [-1..100]");
}
if (value < -.5f) {
frame_settings->values.cparams.channel_colors_pre_transform_percent =
95.0f;
} else {
frame_settings->values.cparams.channel_colors_pre_transform_percent =
value;
}
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_CHANNEL_COLORS_GROUP_PERCENT:
if (value < -1.f || value > 100.f) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Option value has to be in [-1..100]");
}
if (value < -.5f) {
frame_settings->values.cparams.channel_colors_percent = 80.0f;
} else {
frame_settings->values.cparams.channel_colors_percent = value;
}
return JXL_ENC_SUCCESS;
case JXL_ENC_FRAME_SETTING_EFFORT:
case JXL_ENC_FRAME_SETTING_DECODING_SPEED:
case JXL_ENC_FRAME_SETTING_RESAMPLING:
case JXL_ENC_FRAME_SETTING_EXTRA_CHANNEL_RESAMPLING:
case JXL_ENC_FRAME_SETTING_ALREADY_DOWNSAMPLED:
case JXL_ENC_FRAME_SETTING_NOISE:
case JXL_ENC_FRAME_SETTING_DOTS:
case JXL_ENC_FRAME_SETTING_PATCHES:
case JXL_ENC_FRAME_SETTING_EPF:
case JXL_ENC_FRAME_SETTING_GABORISH:
case JXL_ENC_FRAME_SETTING_MODULAR:
case JXL_ENC_FRAME_SETTING_KEEP_INVISIBLE:
case JXL_ENC_FRAME_SETTING_GROUP_ORDER:
case JXL_ENC_FRAME_SETTING_GROUP_ORDER_CENTER_X:
case JXL_ENC_FRAME_SETTING_GROUP_ORDER_CENTER_Y:
case JXL_ENC_FRAME_SETTING_RESPONSIVE:
case JXL_ENC_FRAME_SETTING_PROGRESSIVE_AC:
case JXL_ENC_FRAME_SETTING_QPROGRESSIVE_AC:
case JXL_ENC_FRAME_SETTING_PROGRESSIVE_DC:
case JXL_ENC_FRAME_SETTING_PALETTE_COLORS:
case JXL_ENC_FRAME_SETTING_LOSSY_PALETTE:
case JXL_ENC_FRAME_SETTING_COLOR_TRANSFORM:
case JXL_ENC_FRAME_SETTING_MODULAR_COLOR_SPACE:
case JXL_ENC_FRAME_SETTING_MODULAR_GROUP_SIZE:
case JXL_ENC_FRAME_SETTING_MODULAR_PREDICTOR:
case JXL_ENC_FRAME_SETTING_MODULAR_NB_PREV_CHANNELS:
case JXL_ENC_FRAME_SETTING_JPEG_RECON_CFL:
case JXL_ENC_FRAME_INDEX_BOX:
case JXL_ENC_FRAME_SETTING_BROTLI_EFFORT:
case JXL_ENC_FRAME_SETTING_FILL_ENUM:
case JXL_ENC_FRAME_SETTING_JPEG_COMPRESS_BOXES:
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_NOT_SUPPORTED,
"Int option, try setting it with "
"JxlEncoderFrameSettingsSetOption");
default:
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_NOT_SUPPORTED,
"Unknown option");
}
}
JxlEncoder* JxlEncoderCreate(const JxlMemoryManager* memory_manager) {
JxlMemoryManager local_memory_manager;
if (!jxl::MemoryManagerInit(&local_memory_manager, memory_manager)) {
return nullptr;
}
void* alloc =
jxl::MemoryManagerAlloc(&local_memory_manager, sizeof(JxlEncoder));
if (!alloc) return nullptr;
JxlEncoder* enc = new (alloc) JxlEncoder();
enc->memory_manager = local_memory_manager;
// TODO(sboukortt): add an API function to set this.
enc->cms = jxl::GetJxlCms();
// Initialize all the field values.
JxlEncoderReset(enc);
return enc;
}
void JxlEncoderReset(JxlEncoder* enc) {
enc->thread_pool.reset();
enc->input_queue.clear();
enc->num_queued_frames = 0;
enc->num_queued_boxes = 0;
enc->encoder_options.clear();
enc->output_byte_queue.clear();
enc->output_fast_frame_queue.clear();
enc->codestream_bytes_written_beginning_of_frame = 0;
enc->codestream_bytes_written_end_of_frame = 0;
enc->wrote_bytes = false;
enc->jxlp_counter = 0;
enc->metadata = jxl::CodecMetadata();
enc->last_used_cparams = jxl::CompressParams();
enc->frames_closed = false;
enc->boxes_closed = false;
enc->basic_info_set = false;
enc->color_encoding_set = false;
enc->intensity_target_set = false;
enc->use_container = false;
enc->use_boxes = false;
enc->codestream_level = -1;
JxlEncoderInitBasicInfo(&enc->basic_info);
}
void JxlEncoderDestroy(JxlEncoder* enc) {
if (enc) {
JxlMemoryManager local_memory_manager = enc->memory_manager;
// Call destructor directly since custom free function is used.
enc->~JxlEncoder();
jxl::MemoryManagerFree(&local_memory_manager, enc);
}
}
JxlEncoderError JxlEncoderGetError(JxlEncoder* enc) { return enc->error; }
JxlEncoderStatus JxlEncoderUseContainer(JxlEncoder* enc,
JXL_BOOL use_container) {
if (enc->wrote_bytes) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"this setting can only be set at the beginning");
}
enc->use_container = static_cast<bool>(use_container);
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderStoreJPEGMetadata(JxlEncoder* enc,
JXL_BOOL store_jpeg_metadata) {
if (enc->wrote_bytes) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"this setting can only be set at the beginning");
}
enc->store_jpeg_metadata = static_cast<bool>(store_jpeg_metadata);
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderSetCodestreamLevel(JxlEncoder* enc, int level) {
if (level != -1 && level != 5 && level != 10) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_NOT_SUPPORTED, "invalid level");
}
if (enc->wrote_bytes) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"this setting can only be set at the beginning");
}
enc->codestream_level = level;
return JXL_ENC_SUCCESS;
}
int JxlEncoderGetRequiredCodestreamLevel(const JxlEncoder* enc) {
return VerifyLevelSettings(enc, nullptr);
}
void JxlEncoderSetCms(JxlEncoder* enc, JxlCmsInterface cms) {
jxl::msan::MemoryIsInitialized(&cms, sizeof(cms));
enc->cms = cms;
}
JxlEncoderStatus JxlEncoderSetParallelRunner(JxlEncoder* enc,
JxlParallelRunner parallel_runner,
void* parallel_runner_opaque) {
if (enc->thread_pool) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"parallel runner already set");
}
enc->thread_pool = jxl::MemoryManagerMakeUnique<jxl::ThreadPool>(
&enc->memory_manager, parallel_runner, parallel_runner_opaque);
if (!enc->thread_pool) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_GENERIC,
"error setting parallel runner");
}
return JXL_ENC_SUCCESS;
}
namespace {
JxlEncoderStatus GetCurrentDimensions(
const JxlEncoderFrameSettings* frame_settings, size_t& xsize,
size_t& ysize) {
xsize = frame_settings->enc->metadata.xsize();
ysize = frame_settings->enc->metadata.ysize();
if (frame_settings->values.header.layer_info.have_crop) {
xsize = frame_settings->values.header.layer_info.xsize;
ysize = frame_settings->values.header.layer_info.ysize;
}
if (frame_settings->values.cparams.already_downsampled) {
size_t factor = frame_settings->values.cparams.resampling;
xsize = jxl::DivCeil(xsize, factor);
ysize = jxl::DivCeil(ysize, factor);
}
if (xsize == 0 || ysize == 0) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"zero-sized frame is not allowed");
}
return JXL_ENC_SUCCESS;
}
} // namespace
JxlEncoderStatus JxlEncoderAddJPEGFrame(
const JxlEncoderFrameSettings* frame_settings, const uint8_t* buffer,
size_t size) {
if (frame_settings->enc->frames_closed) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Frame input is already closed");
}
jxl::CodecInOut io;
if (!jxl::jpeg::DecodeImageJPG(jxl::Span<const uint8_t>(buffer, size), &io)) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_BAD_INPUT,
"Error during decode of input JPEG");
}
if (!frame_settings->enc->color_encoding_set) {
if (!SetColorEncodingFromJpegData(
*io.Main().jpeg_data,
&frame_settings->enc->metadata.m.color_encoding)) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_BAD_INPUT,
"Error in input JPEG color space");
}
}
if (!frame_settings->enc->basic_info_set) {
JxlBasicInfo basic_info;
JxlEncoderInitBasicInfo(&basic_info);
basic_info.xsize = io.Main().jpeg_data->width;
basic_info.ysize = io.Main().jpeg_data->height;
basic_info.uses_original_profile = true;
if (JxlEncoderSetBasicInfo(frame_settings->enc, &basic_info) !=
JXL_ENC_SUCCESS) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_GENERIC,
"Error setting basic info");
}
}
if (frame_settings->enc->metadata.m.xyb_encoded) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Can't XYB encode a lossless JPEG");
}
if (!io.blobs.exif.empty()) {
JxlOrientation orientation = static_cast<JxlOrientation>(
frame_settings->enc->metadata.m.orientation);
jxl::InterpretExif(io.blobs.exif, &orientation);
frame_settings->enc->metadata.m.orientation = orientation;
size_t exif_size = io.blobs.exif.size();
// Exif data in JPEG is limited to 64k
if (exif_size > 0xFFFF) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_GENERIC,
"Exif larger than possible in JPEG?");
}
exif_size += 4; // prefix 4 zero bytes for tiff offset
std::vector<uint8_t> exif(exif_size);
memcpy(exif.data() + 4, io.blobs.exif.data(), io.blobs.exif.size());
JxlEncoderUseBoxes(frame_settings->enc);
JxlEncoderAddBox(frame_settings->enc, "Exif", exif.data(), exif_size,
frame_settings->values.cparams.jpeg_compress_boxes);
}
if (!io.blobs.xmp.empty()) {
JxlEncoderUseBoxes(frame_settings->enc);
JxlEncoderAddBox(frame_settings->enc, "xml ", io.blobs.xmp.data(),
io.blobs.xmp.size(),
frame_settings->values.cparams.jpeg_compress_boxes);
}
if (!io.blobs.jumbf.empty()) {
JxlEncoderUseBoxes(frame_settings->enc);
JxlEncoderAddBox(frame_settings->enc, "jumb", io.blobs.jumbf.data(),
io.blobs.jumbf.size(),
frame_settings->values.cparams.jpeg_compress_boxes);
}
if (frame_settings->enc->store_jpeg_metadata) {
jxl::jpeg::JPEGData data_in = *io.Main().jpeg_data;
jxl::PaddedBytes jpeg_data;
if (!jxl::jpeg::EncodeJPEGData(data_in, &jpeg_data,
frame_settings->values.cparams)) {
return JXL_API_ERROR(
frame_settings->enc, JXL_ENC_ERR_JBRD,
"JPEG bitstream reconstruction data cannot be encoded");
}
frame_settings->enc->jpeg_metadata = std::vector<uint8_t>(
jpeg_data.data(), jpeg_data.data() + jpeg_data.size());
}
auto queued_frame = jxl::MemoryManagerMakeUnique<jxl::JxlEncoderQueuedFrame>(
&frame_settings->enc->memory_manager,
// JxlEncoderQueuedFrame is a struct with no constructors, so we use the
// default move constructor there.
jxl::JxlEncoderQueuedFrame{
frame_settings->values,
jxl::ImageBundle(&frame_settings->enc->metadata.m),
{}});
if (!queued_frame) {
// TODO(jon): when can this happen? is this an API usage error?
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_GENERIC,
"No frame queued?");
}
queued_frame->frame.SetFromImage(std::move(*io.Main().color()),
io.Main().c_current());
size_t xsize, ysize;
if (GetCurrentDimensions(frame_settings, xsize, ysize) != JXL_ENC_SUCCESS) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_GENERIC,
"bad dimensions");
}
if (xsize != static_cast<size_t>(io.Main().jpeg_data->width) ||
ysize != static_cast<size_t>(io.Main().jpeg_data->height)) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_GENERIC,
"JPEG dimensions don't match frame dimensions");
}
std::vector<jxl::ImageF> extra_channels(
frame_settings->enc->metadata.m.num_extra_channels);
for (auto& extra_channel : extra_channels) {
extra_channel = jxl::ImageF(xsize, ysize);
queued_frame->ec_initialized.push_back(0);
}
queued_frame->frame.SetExtraChannels(std::move(extra_channels));
queued_frame->frame.jpeg_data = std::move(io.Main().jpeg_data);
queued_frame->frame.color_transform = io.Main().color_transform;
queued_frame->frame.chroma_subsampling = io.Main().chroma_subsampling;
QueueFrame(frame_settings, queued_frame);
return JXL_ENC_SUCCESS;
}
static bool CanDoFastLossless(const JxlEncoderFrameSettings* frame_settings,
const JxlPixelFormat* pixel_format,
bool has_alpha) {
if (!frame_settings->values.lossless) {
return false;
}
// TODO(veluca): many of the following options could be made to work, but are
// just not implemented in FJXL's frame header handling yet.
if (frame_settings->values.frame_index_box) {
return false;
}
if (frame_settings->values.header.layer_info.have_crop) {
return false;
}
if (frame_settings->enc->metadata.m.have_animation) {
return false;
}
if (frame_settings->values.cparams.speed_tier != jxl::SpeedTier::kLightning) {
return false;
}
if (frame_settings->values.image_bit_depth.type ==
JxlBitDepthType::JXL_BIT_DEPTH_CUSTOM &&
frame_settings->values.image_bit_depth.bits_per_sample !=
frame_settings->enc->metadata.m.bit_depth.bits_per_sample) {
return false;
}
// TODO(veluca): implement support for LSB-padded input in fast_lossless.
if (frame_settings->values.image_bit_depth.type ==
JxlBitDepthType::JXL_BIT_DEPTH_FROM_PIXEL_FORMAT &&
frame_settings->values.image_bit_depth.bits_per_sample % 8 != 0) {
return false;
}
if (!frame_settings->values.frame_name.empty()) {
return false;
}
// No extra channels other than alpha.
if (!(has_alpha && frame_settings->enc->metadata.m.num_extra_channels == 1) &&
frame_settings->enc->metadata.m.num_extra_channels != 0) {
return false;
}
if (frame_settings->enc->metadata.m.bit_depth.bits_per_sample > 16) {
return false;
}
if (pixel_format->data_type != JxlDataType::JXL_TYPE_FLOAT16 &&
pixel_format->data_type != JxlDataType::JXL_TYPE_UINT16 &&
pixel_format->data_type != JxlDataType::JXL_TYPE_UINT8) {
return false;
}
if ((frame_settings->enc->metadata.m.bit_depth.bits_per_sample > 8) !=
(pixel_format->data_type == JxlDataType::JXL_TYPE_UINT16 ||
pixel_format->data_type == JxlDataType::JXL_TYPE_FLOAT16)) {
return false;
}
if (!((pixel_format->num_channels == 1 || pixel_format->num_channels == 3) &&
!has_alpha) &&
!((pixel_format->num_channels == 2 || pixel_format->num_channels == 4) &&
has_alpha)) {
return false;
}
return true;
}
JxlEncoderStatus JxlEncoderAddImageFrame(
const JxlEncoderFrameSettings* frame_settings,
const JxlPixelFormat* pixel_format, const void* buffer, size_t size) {
if (!frame_settings->enc->basic_info_set ||
(!frame_settings->enc->color_encoding_set &&
!frame_settings->enc->metadata.m.xyb_encoded)) {
// Basic Info must be set, and color encoding must be set directly,
// or set to XYB via JxlBasicInfo.uses_original_profile = JXL_FALSE
// Otherwise, this is an API misuse.
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Basic info or color encoding not set yet");
}
if (frame_settings->enc->frames_closed) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Frame input already closed");
}
if (pixel_format->num_channels < 3) {
if (frame_settings->enc->basic_info.num_color_channels != 1) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Grayscale pixel format input for an RGB image");
}
} else {
if (frame_settings->enc->basic_info.num_color_channels != 3) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"RGB pixel format input for a grayscale image");
}
}
bool has_alpha = frame_settings->enc->metadata.m.HasAlpha();
size_t xsize, ysize;
if (GetCurrentDimensions(frame_settings, xsize, ysize) != JXL_ENC_SUCCESS) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_GENERIC,
"bad dimensions");
}
// All required conditions to do fast-lossless.
if (CanDoFastLossless(frame_settings, pixel_format, has_alpha)) {
const size_t bytes_per_pixel =
pixel_format->data_type == JxlDataType::JXL_TYPE_UINT8
? pixel_format->num_channels
: pixel_format->num_channels * 2;
const size_t last_row_size = xsize * bytes_per_pixel;
const size_t align = pixel_format->align;
const size_t row_size =
(align > 1 ? jxl::DivCeil(last_row_size, align) * align
: last_row_size);
const size_t bytes_to_read = row_size * (ysize - 1) + last_row_size;
if (bytes_to_read > size) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"provided image buffer too small");
}
const bool big_endian =
pixel_format->endianness == JXL_BIG_ENDIAN ||
(pixel_format->endianness == JXL_NATIVE_ENDIAN && !IsLittleEndian());
auto runner = +[](void* void_pool, void* opaque, void fun(void*, size_t),
size_t count) {
auto* pool = reinterpret_cast<jxl::ThreadPool*>(void_pool);
JXL_CHECK(jxl::RunOnPool(
pool, 0, count, jxl::ThreadPool::NoInit,
[&](size_t i, size_t) { fun(opaque, i); }, "Encode fast lossless"));
};
QueueFastLosslessFrame(
frame_settings,
JxlFastLosslessPrepareFrame(
reinterpret_cast<const unsigned char*>(buffer), xsize, row_size,
ysize, pixel_format->num_channels,
frame_settings->enc->metadata.m.bit_depth.bits_per_sample,
big_endian, /*effort=*/2, frame_settings->enc->thread_pool.get(),
runner));
return JXL_ENC_SUCCESS;
}
auto queued_frame = jxl::MemoryManagerMakeUnique<jxl::JxlEncoderQueuedFrame>(
&frame_settings->enc->memory_manager,
// JxlEncoderQueuedFrame is a struct with no constructors, so we use the
// default move constructor there.
jxl::JxlEncoderQueuedFrame{
frame_settings->values,
jxl::ImageBundle(&frame_settings->enc->metadata.m),
{}});
if (!queued_frame) {
// TODO(jon): when can this happen? is this an API usage error?
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_GENERIC,
"No frame queued?");
}
jxl::ColorEncoding c_current;
if (!frame_settings->enc->color_encoding_set) {
if ((pixel_format->data_type == JXL_TYPE_FLOAT) ||
(pixel_format->data_type == JXL_TYPE_FLOAT16)) {
c_current =
jxl::ColorEncoding::LinearSRGB(pixel_format->num_channels < 3);
} else {
c_current = jxl::ColorEncoding::SRGB(pixel_format->num_channels < 3);
}
} else {
c_current = frame_settings->enc->metadata.m.color_encoding;
}
uint32_t num_channels = pixel_format->num_channels;
size_t has_interleaved_alpha =
static_cast<size_t>(num_channels == 2 || num_channels == 4);
if (has_interleaved_alpha >
frame_settings->enc->metadata.m.num_extra_channels) {
return JXL_API_ERROR(
frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"number of extra channels mismatch (need 1 extra channel for alpha)");
}
std::vector<jxl::ImageF> extra_channels(
frame_settings->enc->metadata.m.num_extra_channels);
for (auto& extra_channel : extra_channels) {
extra_channel = jxl::ImageF(xsize, ysize);
}
queued_frame->frame.SetExtraChannels(std::move(extra_channels));
for (auto& ec_info : frame_settings->enc->metadata.m.extra_channel_info) {
if (has_interleaved_alpha && ec_info.type == jxl::ExtraChannel::kAlpha) {
queued_frame->ec_initialized.push_back(1);
has_interleaved_alpha = 0; // only first Alpha is initialized
} else {
queued_frame->ec_initialized.push_back(0);
}
}
queued_frame->frame.origin.x0 =
frame_settings->values.header.layer_info.crop_x0;
queued_frame->frame.origin.y0 =
frame_settings->values.header.layer_info.crop_y0;
queued_frame->frame.use_for_next_frame =
(frame_settings->values.header.layer_info.save_as_reference != 0u);
queued_frame->frame.blendmode =
frame_settings->values.header.layer_info.blend_info.blendmode ==
JXL_BLEND_REPLACE
? jxl::BlendMode::kReplace
: jxl::BlendMode::kBlend;
queued_frame->frame.blend =
frame_settings->values.header.layer_info.blend_info.source > 0;
if (JXL_ENC_SUCCESS !=
VerifyInputBitDepth(frame_settings->values.image_bit_depth,
*pixel_format)) {
return JXL_API_ERROR_NOSET("Invalid input bit depth");
}
size_t bits_per_sample =
GetBitDepth(frame_settings->values.image_bit_depth,
frame_settings->enc->metadata.m, *pixel_format);
const uint8_t* uint8_buffer = reinterpret_cast<const uint8_t*>(buffer);
if (!jxl::ConvertFromExternal(
jxl::Span<const uint8_t>(uint8_buffer, size), xsize, ysize, c_current,
bits_per_sample, *pixel_format,
frame_settings->enc->thread_pool.get(), &(queued_frame->frame))) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Invalid input buffer");
}
if (frame_settings->values.lossless &&
frame_settings->enc->metadata.m.xyb_encoded) {
return JXL_API_ERROR(
frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Set uses_original_profile=true for lossless encoding");
}
queued_frame->option_values.cparams.level =
frame_settings->enc->codestream_level;
QueueFrame(frame_settings, queued_frame);
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderUseBoxes(JxlEncoder* enc) {
if (enc->wrote_bytes) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"this setting can only be set at the beginning");
}
enc->use_boxes = true;
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderAddBox(JxlEncoder* enc, const JxlBoxType type,
const uint8_t* contents, size_t size,
JXL_BOOL compress_box) {
if (!enc->use_boxes) {
return JXL_API_ERROR(
enc, JXL_ENC_ERR_API_USAGE,
"must set JxlEncoderUseBoxes at the beginning to add boxes");
}
if (compress_box) {
if (memcmp("jxl", type, 3) == 0) {
return JXL_API_ERROR(
enc, JXL_ENC_ERR_API_USAGE,
"brob box may not contain a type starting with \"jxl\"");
}
if (memcmp("jbrd", type, 4) == 0) {
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"jbrd box may not be brob compressed");
}
if (memcmp("brob", type, 4) == 0) {
// The compress_box will compress an existing non-brob box into a brob
// box. If already giving a valid brotli-compressed brob box, set
// compress_box to false since it is already compressed.
return JXL_API_ERROR(enc, JXL_ENC_ERR_API_USAGE,
"a brob box cannot contain another brob box");
}
}
auto box = jxl::MemoryManagerMakeUnique<jxl::JxlEncoderQueuedBox>(
&enc->memory_manager);
box->type = jxl::MakeBoxType(type);
box->contents.assign(contents, contents + size);
box->compress_box = !!compress_box;
QueueBox(enc, box);
return JXL_ENC_SUCCESS;
}
JXL_EXPORT JxlEncoderStatus JxlEncoderSetExtraChannelBuffer(
const JxlEncoderOptions* frame_settings, const JxlPixelFormat* pixel_format,
const void* buffer, size_t size, uint32_t index) {
if (index >= frame_settings->enc->metadata.m.num_extra_channels) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Invalid value for the index of extra channel");
}
if (!frame_settings->enc->basic_info_set ||
!frame_settings->enc->color_encoding_set) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Basic info has to be set first");
}
if (frame_settings->enc->input_queue.empty()) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"First add image frame, then extra channels");
}
if (frame_settings->enc->frames_closed) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Frame input already closed");
}
size_t xsize, ysize;
if (GetCurrentDimensions(frame_settings, xsize, ysize) != JXL_ENC_SUCCESS) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_GENERIC,
"bad dimensions");
}
JxlPixelFormat ec_format = *pixel_format;
ec_format.num_channels = 1;
if (JXL_ENC_SUCCESS !=
VerifyInputBitDepth(frame_settings->values.image_bit_depth, ec_format)) {
return JXL_API_ERROR_NOSET("Invalid input bit depth");
}
size_t bits_per_sample = GetBitDepth(
frame_settings->values.image_bit_depth,
frame_settings->enc->metadata.m.extra_channel_info[index], ec_format);
const uint8_t* uint8_buffer = reinterpret_cast<const uint8_t*>(buffer);
auto queued_frame = frame_settings->enc->input_queue.back().frame.get();
if (!jxl::ConvertFromExternal(jxl::Span<const uint8_t>(uint8_buffer, size),
xsize, ysize, bits_per_sample, ec_format, 0,
frame_settings->enc->thread_pool.get(),
&queued_frame->frame.extra_channels()[index])) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Failed to set buffer for extra channel");
}
queued_frame->ec_initialized[index] = 1;
return JXL_ENC_SUCCESS;
}
void JxlEncoderCloseFrames(JxlEncoder* enc) { enc->frames_closed = true; }
void JxlEncoderCloseBoxes(JxlEncoder* enc) { enc->boxes_closed = true; }
void JxlEncoderCloseInput(JxlEncoder* enc) {
JxlEncoderCloseFrames(enc);
JxlEncoderCloseBoxes(enc);
}
JxlEncoderStatus JxlEncoderProcessOutput(JxlEncoder* enc, uint8_t** next_out,
size_t* avail_out) {
while (*avail_out >= 32 &&
(!enc->output_byte_queue.empty() ||
!enc->output_fast_frame_queue.empty() || !enc->input_queue.empty())) {
if (!enc->output_byte_queue.empty()) {
size_t to_copy = std::min(*avail_out, enc->output_byte_queue.size());
std::copy_n(enc->output_byte_queue.begin(), to_copy, *next_out);
*next_out += to_copy;
*avail_out -= to_copy;
enc->output_byte_queue.erase(enc->output_byte_queue.begin(),
enc->output_byte_queue.begin() + to_copy);
} else if (!enc->output_fast_frame_queue.empty()) {
size_t count = JxlFastLosslessWriteOutput(
enc->output_fast_frame_queue.front().get(), *next_out, *avail_out);
*next_out += count;
*avail_out -= count;
if (count == 0) {
enc->output_fast_frame_queue.pop_front();
}
} else if (!enc->input_queue.empty()) {
if (enc->RefillOutputByteQueue() != JXL_ENC_SUCCESS) {
return JXL_ENC_ERROR;
}
}
}
if (!enc->output_byte_queue.empty() ||
!enc->output_fast_frame_queue.empty() || !enc->input_queue.empty()) {
return JXL_ENC_NEED_MORE_OUTPUT;
}
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderSetFrameHeader(JxlEncoderOptions* frame_settings,
const JxlFrameHeader* frame_header) {
if (frame_header->layer_info.blend_info.source > 3) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"invalid blending source index");
}
// If there are no extra channels, it's ok for the value to be 0.
if (frame_header->layer_info.blend_info.alpha != 0 &&
frame_header->layer_info.blend_info.alpha >=
frame_settings->enc->metadata.m.extra_channel_info.size()) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"alpha blend channel index out of bounds");
}
frame_settings->values.header = *frame_header;
// Setting the frame header resets the frame name, it must be set again with
// JxlEncoderSetFrameName if desired.
frame_settings->values.frame_name = "";
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderSetExtraChannelBlendInfo(
JxlEncoderOptions* frame_settings, size_t index,
const JxlBlendInfo* blend_info) {
if (index >= frame_settings->enc->metadata.m.num_extra_channels) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"Invalid value for the index of extra channel");
}
if (frame_settings->values.extra_channel_blend_info.size() !=
frame_settings->enc->metadata.m.num_extra_channels) {
JxlBlendInfo default_blend_info;
JxlEncoderInitBlendInfo(&default_blend_info);
frame_settings->values.extra_channel_blend_info.resize(
frame_settings->enc->metadata.m.num_extra_channels, default_blend_info);
}
frame_settings->values.extra_channel_blend_info[index] = *blend_info;
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderSetFrameName(JxlEncoderFrameSettings* frame_settings,
const char* frame_name) {
std::string str = frame_name ? frame_name : "";
if (str.size() > 1071) {
return JXL_API_ERROR(frame_settings->enc, JXL_ENC_ERR_API_USAGE,
"frame name can be max 1071 bytes long");
}
frame_settings->values.frame_name = str;
frame_settings->values.header.name_length = str.size();
return JXL_ENC_SUCCESS;
}
JxlEncoderStatus JxlEncoderSetFrameBitDepth(
JxlEncoderFrameSettings* frame_settings, const JxlBitDepth* bit_depth) {
if (bit_depth->type != JXL_BIT_DEPTH_FROM_PIXEL_FORMAT &&
bit_depth->type != JXL_BIT_DEPTH_FROM_CODESTREAM) {
return JXL_API_ERROR_NOSET(
"Only JXL_BIT_DEPTH_FROM_PIXEL_FORMAT and "
"JXL_BIT_DEPTH_FROM_CODESTREAM is implemented "
"for input buffers.");
}
frame_settings->values.image_bit_depth = *bit_depth;
return JXL_ENC_SUCCESS;
}
void JxlColorEncodingSetToSRGB(JxlColorEncoding* color_encoding,
JXL_BOOL is_gray) {
ConvertInternalToExternalColorEncoding(jxl::ColorEncoding::SRGB(is_gray),
color_encoding);
}
void JxlColorEncodingSetToLinearSRGB(JxlColorEncoding* color_encoding,
JXL_BOOL is_gray) {
ConvertInternalToExternalColorEncoding(
jxl::ColorEncoding::LinearSRGB(is_gray), color_encoding);
}
void JxlEncoderAllowExpertOptions(JxlEncoder* enc) {
enc->allow_expert_options = true;
}
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