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ladybird/Userland/Libraries/LibGfx/QOILoader.cpp
Nico Weber 307712b398 LibGfx: Add a method to ImageDecoderPlugin for reading ICC data 
This probably won't be the final API for getting color spaces
from images, since some formats just store an "is sRGB?" flag
instead of a full profile. Instead, once everything works,
we probably want to give every Bitmap a pointer to some
color space abstraction.

But we can always change this later, once things are further along
and better understood.
2023-01-27 17:26:48 +00:00

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/*
* Copyright (c) 2021, Linus Groh <linusg@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Endian.h>
#include <LibCore/MemoryStream.h>
#include <LibGfx/Bitmap.h>
#include <LibGfx/QOILoader.h>
namespace Gfx {
static constexpr auto QOI_MAGIC = "qoif"sv;
static constexpr u8 QOI_OP_RGB = 0b11111110;
static constexpr u8 QOI_OP_RGBA = 0b11111111;
static constexpr u8 QOI_OP_INDEX = 0b00000000;
static constexpr u8 QOI_OP_DIFF = 0b01000000;
static constexpr u8 QOI_OP_LUMA = 0b10000000;
static constexpr u8 QOI_OP_RUN = 0b11000000;
static constexpr u8 QOI_MASK_2 = 0b11000000;
static constexpr u8 END_MARKER[] = { 0, 0, 0, 0, 0, 0, 0, 1 };
static ErrorOr<QOIHeader> decode_qoi_header(Core::Stream::Stream& stream)
{
auto header = TRY(stream.read_value<QOIHeader>());
if (StringView { header.magic, array_size(header.magic) } != QOI_MAGIC)
return Error::from_string_literal("Invalid QOI image: incorrect header magic");
header.width = AK::convert_between_host_and_big_endian(header.width);
header.height = AK::convert_between_host_and_big_endian(header.height);
return header;
}
static ErrorOr<Color> decode_qoi_op_rgb(Core::Stream::Stream& stream, u8 first_byte, Color pixel)
{
VERIFY(first_byte == QOI_OP_RGB);
u8 bytes[3];
TRY(stream.read_entire_buffer({ &bytes, array_size(bytes) }));
// The alpha value remains unchanged from the previous pixel.
return Color { bytes[0], bytes[1], bytes[2], pixel.alpha() };
}
static ErrorOr<Color> decode_qoi_op_rgba(Core::Stream::Stream& stream, u8 first_byte)
{
VERIFY(first_byte == QOI_OP_RGBA);
u8 bytes[4];
TRY(stream.read_entire_buffer({ &bytes, array_size(bytes) }));
return Color { bytes[0], bytes[1], bytes[2], bytes[3] };
}
static ErrorOr<u8> decode_qoi_op_index(Core::Stream::Stream&, u8 first_byte)
{
VERIFY((first_byte & QOI_MASK_2) == QOI_OP_INDEX);
u8 index = first_byte & ~QOI_MASK_2;
VERIFY(index <= 63);
return index;
}
static ErrorOr<Color> decode_qoi_op_diff(Core::Stream::Stream&, u8 first_byte, Color pixel)
{
VERIFY((first_byte & QOI_MASK_2) == QOI_OP_DIFF);
u8 dr = (first_byte & 0b00110000) >> 4;
u8 dg = (first_byte & 0b00001100) >> 2;
u8 db = (first_byte & 0b00000011);
VERIFY(dr <= 3 && dg <= 3 && db <= 3);
// Values are stored as unsigned integers with a bias of 2.
return Color {
static_cast<u8>(pixel.red() + static_cast<i8>(dr - 2)),
static_cast<u8>(pixel.green() + static_cast<i8>(dg - 2)),
static_cast<u8>(pixel.blue() + static_cast<i8>(db - 2)),
pixel.alpha(),
};
}
static ErrorOr<Color> decode_qoi_op_luma(Core::Stream::Stream& stream, u8 first_byte, Color pixel)
{
VERIFY((first_byte & QOI_MASK_2) == QOI_OP_LUMA);
auto byte = TRY(stream.read_value<u8>());
u8 diff_green = (first_byte & ~QOI_MASK_2);
u8 dr_dg = (byte & 0b11110000) >> 4;
u8 db_dg = (byte & 0b00001111);
// Values are stored as unsigned integers with a bias of 32 for the green channel and a bias of 8 for the red and blue channel.
return Color {
static_cast<u8>(pixel.red() + static_cast<i8>((diff_green - 32) + (dr_dg - 8))),
static_cast<u8>(pixel.green() + static_cast<i8>(diff_green - 32)),
static_cast<u8>(pixel.blue() + static_cast<i8>((diff_green - 32) + (db_dg - 8))),
pixel.alpha(),
};
}
static ErrorOr<u8> decode_qoi_op_run(Core::Stream::Stream&, u8 first_byte)
{
VERIFY((first_byte & QOI_MASK_2) == QOI_OP_RUN);
u8 run = first_byte & ~QOI_MASK_2;
// The run-length is stored with a bias of -1.
run += 1;
// Note that the run-lengths 63 and 64 (b111110 and b111111) are illegal as they are occupied by the QOI_OP_RGB and QOI_OP_RGBA tags.
if (run == QOI_OP_RGB || run == QOI_OP_RGBA)
return Error::from_string_literal("Invalid QOI image: illegal run length");
VERIFY(run >= 1 && run <= 62);
return run;
}
static ErrorOr<void> decode_qoi_end_marker(Core::Stream::Stream& stream)
{
u8 bytes[array_size(END_MARKER)];
TRY(stream.read_entire_buffer({ &bytes, array_size(bytes) }));
if (!stream.is_eof())
return Error::from_string_literal("Invalid QOI image: expected end of stream but more bytes are available");
if (memcmp(&END_MARKER, &bytes, array_size(bytes)) != 0)
return Error::from_string_literal("Invalid QOI image: incorrect end marker");
return {};
}
static ErrorOr<NonnullRefPtr<Bitmap>> decode_qoi_image(Core::Stream::Stream& stream, u32 width, u32 height)
{
// FIXME: Why is Gfx::Bitmap's size signed? Makes no sense whatsoever.
if (width > NumericLimits<int>::max())
return Error::from_string_literal("Cannot create bitmap for QOI image of valid size, width exceeds maximum Gfx::Bitmap width");
if (height > NumericLimits<int>::max())
return Error::from_string_literal("Cannot create bitmap for QOI image of valid size, height exceeds maximum Gfx::Bitmap height");
auto bitmap = TRY(Bitmap::create(BitmapFormat::BGRA8888, { width, height }));
u8 run = 0;
Color pixel = { 0, 0, 0, 255 };
Color previous_pixels[64] {};
for (u32 y = 0; y < height; ++y) {
for (u32 x = 0; x < width; ++x) {
if (run > 0)
--run;
if (run == 0) {
auto first_byte = TRY(stream.read_value<u8>());
if (first_byte == QOI_OP_RGB)
pixel = TRY(decode_qoi_op_rgb(stream, first_byte, pixel));
else if (first_byte == QOI_OP_RGBA)
pixel = TRY(decode_qoi_op_rgba(stream, first_byte));
else if ((first_byte & QOI_MASK_2) == QOI_OP_INDEX)
pixel = previous_pixels[TRY(decode_qoi_op_index(stream, first_byte))];
else if ((first_byte & QOI_MASK_2) == QOI_OP_DIFF)
pixel = TRY(decode_qoi_op_diff(stream, first_byte, pixel));
else if ((first_byte & QOI_MASK_2) == QOI_OP_LUMA)
pixel = TRY(decode_qoi_op_luma(stream, first_byte, pixel));
else if ((first_byte & QOI_MASK_2) == QOI_OP_RUN)
run = TRY(decode_qoi_op_run(stream, first_byte));
else
return Error::from_string_literal("Invalid QOI image: unknown chunk tag");
}
auto index_position = (pixel.red() * 3 + pixel.green() * 5 + pixel.blue() * 7 + pixel.alpha() * 11) % 64;
previous_pixels[index_position] = pixel;
bitmap->set_pixel(x, y, pixel);
}
}
TRY(decode_qoi_end_marker(stream));
return { move(bitmap) };
}
QOIImageDecoderPlugin::QOIImageDecoderPlugin(NonnullOwnPtr<Core::Stream::Stream> stream)
{
m_context = make<QOILoadingContext>();
m_context->stream = move(stream);
}
IntSize QOIImageDecoderPlugin::size()
{
if (m_context->state < QOILoadingContext::State::HeaderDecoded) {
// FIXME: This is a weird API (inherited from ImageDecoderPlugin), should probably propagate errors by returning ErrorOr<IntSize>.
// For the time being, ignore the result and rely on the context's state.
(void)decode_header_and_update_context(*m_context->stream);
}
if (m_context->state == QOILoadingContext::State::Error)
return {};
return { m_context->header.width, m_context->header.height };
}
void QOIImageDecoderPlugin::set_volatile()
{
if (m_context->bitmap)
m_context->bitmap->set_volatile();
}
bool QOIImageDecoderPlugin::set_nonvolatile(bool& was_purged)
{
if (!m_context->bitmap)
return false;
return m_context->bitmap->set_nonvolatile(was_purged);
}
bool QOIImageDecoderPlugin::initialize()
{
return !decode_header_and_update_context(*m_context->stream).is_error();
}
ErrorOr<bool> QOIImageDecoderPlugin::sniff(ReadonlyBytes data)
{
auto stream = TRY(Core::Stream::FixedMemoryStream::construct({ data.data(), data.size() }));
return !decode_qoi_header(*stream).is_error();
}
ErrorOr<NonnullOwnPtr<ImageDecoderPlugin>> QOIImageDecoderPlugin::create(ReadonlyBytes data)
{
auto stream = TRY(Core::Stream::FixedMemoryStream::construct(data));
return adopt_nonnull_own_or_enomem(new (nothrow) QOIImageDecoderPlugin(move(stream)));
}
ErrorOr<ImageFrameDescriptor> QOIImageDecoderPlugin::frame(size_t index)
{
if (index > 0)
return Error::from_string_literal("Invalid frame index");
if (m_context->state == QOILoadingContext::State::NotDecoded) {
TRY(decode_header_and_update_context(*m_context->stream));
TRY(decode_image_and_update_context(*m_context->stream));
} else if (m_context->state == QOILoadingContext::State::HeaderDecoded) {
TRY(decode_image_and_update_context(*m_context->stream));
}
if (m_context->state == QOILoadingContext::State::ImageDecoded) {
VERIFY(m_context->bitmap);
return ImageFrameDescriptor { m_context->bitmap, 0 };
}
VERIFY(m_context->state == QOILoadingContext::State::Error);
VERIFY(m_context->error.has_value());
return *m_context->error;
}
ErrorOr<void> QOIImageDecoderPlugin::decode_header_and_update_context(Core::Stream::Stream& stream)
{
VERIFY(m_context->state < QOILoadingContext::State::HeaderDecoded);
auto error_or_header = decode_qoi_header(stream);
if (error_or_header.is_error()) {
m_context->state = QOILoadingContext::State::Error;
m_context->error = error_or_header.release_error();
return *m_context->error;
}
m_context->state = QOILoadingContext::State::HeaderDecoded;
m_context->header = error_or_header.release_value();
return {};
}
ErrorOr<void> QOIImageDecoderPlugin::decode_image_and_update_context(Core::Stream::Stream& stream)
{
VERIFY(m_context->state < QOILoadingContext::State::ImageDecoded);
auto error_or_bitmap = decode_qoi_image(stream, m_context->header.width, m_context->header.height);
if (error_or_bitmap.is_error()) {
m_context->state = QOILoadingContext::State::Error;
m_context->error = error_or_bitmap.release_error();
return *m_context->error;
}
m_context->state = QOILoadingContext::State::ImageDecoded;
m_context->bitmap = error_or_bitmap.release_value();
return {};
}
ErrorOr<Optional<ReadonlyBytes>> QOIImageDecoderPlugin::icc_data()
{
return OptionalNone {};
}
}
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