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ladybird/Userland/Libraries/LibGfx/TGALoader.cpp
Liav A 2f2d808869 LibGfx: Add support for RLE compressed TGA images 
RLE is an old technique being used for decades, as is known as
Run-Length-Encoding, which means that for repeating sequence of bytes,
we keep an indicator for the length of the sequence and only one sample
of it, to save storage space.

GIMP can generate lossless-compressed TGA images, with RLE compression
being used. It means that for a compressed image, the data is no longer
arranged in sequence of pixels, but a sequence of pixel packets.
There are two possible pixel packets:
- RLE packets, which are encoded with one byte for indicating the
  run-length and another one pixel (3 bytes for TrueColor pixel), so
  essentially in runtime, the TGA decoder will use the length to plot
  the same pixel in multiple pixels of the output pixel bitmap.
- Raw packets, which are encoded with one byte as indicator for the
  length of the whole pixel sequence and N-length pixel sequence
  afterwards.
  This is not used for any sort of compression by the TGA format, but
  still needed to be supported for full compatibility with TGA images
  that uses the RLE compression.
2023-01-15 12:43:03 +01:00

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/*
* Copyright (c) 2022, Tom Needham <06needhamt@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Span.h>
#include <AK/StdLibExtraDetails.h>
#include <AK/String.h>
#include <LibGfx/TGALoader.h>
namespace Gfx {
enum TGADataType : u8 {
None = 0,
UncompressedColorMapped = 1,
UncompressedRGB = 2,
UncompressedBlackAndWhite = 3,
RunLengthEncodedColorMapped = 9,
RunLengthEncodedRGB = 10,
CompressedBlackAndWhite = 11,
CompressedColorMapped = 32,
CompressedColorMappedFourPass = 33
};
struct [[gnu::packed]] TGAHeader {
u8 id_length;
u8 color_map_type;
TGADataType data_type_code;
i16 color_map_origin;
i16 color_map_length;
u8 color_map_depth;
i16 x_origin;
i16 y_origin;
u16 width;
u16 height;
u8 bits_per_pixel;
u8 image_descriptor;
};
static_assert(sizeof(TGAHeader) == 18);
union [[gnu::packed]] TGAPixel {
struct TGAColor {
u8 blue;
u8 green;
u8 red;
u8 alpha;
} components;
u32 data;
};
struct TGAPixelPacket {
bool raw;
u8 pixels_count;
};
static_assert(AssertSize<TGAPixel, 4>());
class TGAReader {
public:
TGAReader(ReadonlyBytes data)
: m_data(move(data))
{
}
ALWAYS_INLINE u8 read_u8()
{
u8 value = m_data[m_index];
m_index++;
return value;
}
ALWAYS_INLINE i8 read_i8()
{
return static_cast<i8>(read_u8());
}
ALWAYS_INLINE u16 read_u16()
{
return read_u8() | read_u8() << 8;
}
ALWAYS_INLINE i16 read_i16()
{
return read_i8() | read_i8() << 8;
}
ALWAYS_INLINE u32 read_u32()
{
return read_u16() | read_u16() << 16;
}
ALWAYS_INLINE i32 read_i32()
{
return read_i16() | read_i16() << 16;
}
ALWAYS_INLINE TGAPixelPacket read_packet_type()
{
auto pixel_packet_type = read_u8();
auto pixel_packet = TGAPixelPacket();
pixel_packet.raw = !(pixel_packet_type & 0x80);
pixel_packet.pixels_count = (pixel_packet_type & 0x7f);
// NOTE: Run-length-encoded/Raw pixel packets cannot encode zero pixels,
// so value 0 stands for 1 pixel, 1 stands for 2, etc...
pixel_packet.pixels_count++;
return pixel_packet;
}
ALWAYS_INLINE TGAPixel read_pixel(u8 bits_per_pixel)
{
auto pixel = TGAPixel();
switch (bits_per_pixel) {
case 24:
pixel.components.blue = read_u8();
pixel.components.green = read_u8();
pixel.components.red = read_u8();
pixel.components.alpha = 0xFF;
return pixel;
case 32:
pixel.components.blue = read_u8();
pixel.components.green = read_u8();
pixel.components.red = read_u8();
pixel.components.alpha = read_u8();
return pixel;
default:
VERIFY_NOT_REACHED();
}
}
size_t index() const
{
return m_index;
}
ReadonlyBytes data() const
{
return m_data;
}
private:
ReadonlyBytes m_data;
size_t m_index { 0 };
};
struct TGALoadingContext {
TGAHeader header;
ReadonlyBytes bytes;
size_t file_size;
OwnPtr<TGAReader> reader = { nullptr };
RefPtr<Gfx::Bitmap> bitmap;
};
TGAImageDecoderPlugin::TGAImageDecoderPlugin(u8 const* file_data, size_t file_size)
{
m_context = make<TGALoadingContext>();
m_context->bytes = ReadonlyBytes(file_data, file_size);
m_context->file_size = move(file_size);
m_context->reader = make<TGAReader>(m_context->bytes);
}
TGAImageDecoderPlugin::~TGAImageDecoderPlugin() = default;
IntSize TGAImageDecoderPlugin::size()
{
return IntSize { m_context->header.width, m_context->header.height };
}
void TGAImageDecoderPlugin::set_volatile()
{
if (m_context->bitmap)
m_context->bitmap->set_volatile();
}
bool TGAImageDecoderPlugin::set_nonvolatile(bool& was_purged)
{
if (!m_context->bitmap)
return false;
return m_context->bitmap->set_nonvolatile(was_purged);
}
bool TGAImageDecoderPlugin::decode_tga_header()
{
auto& reader = m_context->reader;
m_context->header = TGAHeader();
m_context->header.id_length = reader->read_u8();
m_context->header.color_map_type = reader->read_u8();
m_context->header.data_type_code = static_cast<TGADataType>(reader->read_u8());
m_context->header.color_map_origin = reader->read_i16();
m_context->header.color_map_length = reader->read_i16();
m_context->header.color_map_depth = reader->read_u8();
m_context->header.x_origin = reader->read_i16();
m_context->header.y_origin = reader->read_i16();
m_context->header.width = reader->read_u16();
m_context->header.height = reader->read_u16();
m_context->header.bits_per_pixel = reader->read_u8();
m_context->header.image_descriptor = reader->read_u8();
auto bytes_remaining = reader->data().size() - reader->index();
if (m_context->header.data_type_code == TGADataType::UncompressedRGB && bytes_remaining < (m_context->header.width * m_context->header.height * (m_context->header.bits_per_pixel / 8)))
return false;
if (m_context->header.bits_per_pixel < 8 || m_context->header.bits_per_pixel > 32)
return false;
return true;
}
bool TGAImageDecoderPlugin::sniff()
{
return decode_tga_header();
}
bool TGAImageDecoderPlugin::is_animated()
{
return false;
}
size_t TGAImageDecoderPlugin::loop_count()
{
return 0;
}
size_t TGAImageDecoderPlugin::frame_count()
{
return 1;
}
ErrorOr<ImageFrameDescriptor> TGAImageDecoderPlugin::frame(size_t index)
{
auto bits_per_pixel = m_context->header.bits_per_pixel;
auto color_map = m_context->header.color_map_type;
auto data_type = m_context->header.data_type_code;
auto width = m_context->header.width;
auto height = m_context->header.height;
auto x_origin = m_context->header.x_origin;
auto y_origin = m_context->header.y_origin;
if (index != 0)
return Error::from_string_literal("TGAImageDecoderPlugin: frame index must be 0");
if (color_map > 1)
return Error::from_string_literal("TGAImageDecoderPlugin: Invalid color map type");
switch (bits_per_pixel) {
case 24:
m_context->bitmap = TRY(Bitmap::try_create(BitmapFormat::BGRx8888, { m_context->header.width, m_context->header.height }));
break;
case 32:
m_context->bitmap = TRY(Bitmap::try_create(BitmapFormat::BGRA8888, { m_context->header.width, m_context->header.height }));
break;
default:
// FIXME: Implement other TGA bit depths
return Error::from_string_literal("TGAImageDecoderPlugin: Can only handle 24 and 32 bits per pixel");
}
// FIXME: Try to understand the Image origin (instead of X and Y origin coordinates)
// based on the Image descriptor, Field 5.6, bits 4 and 5.
// NOTE: If Y origin is set to a negative number, just assume the generating software
// meant that we start with Y origin at the top height of the picture.
// At least this is the observed behavior when generating some pictures in GIMP.
if (y_origin < 0)
y_origin = height;
if (y_origin != 0 && y_origin != height)
return Error::from_string_literal("TGAImageDecoderPlugin: Can only handle Y origin which is 0 or the entire height");
if (x_origin != 0 && x_origin != width)
return Error::from_string_literal("TGAImageDecoderPlugin: Can only handle X origin which is 0 or the entire width");
switch (data_type) {
case TGADataType::UncompressedRGB: {
for (int row = 0; row < height; ++row) {
for (int col = 0; col < width; ++col) {
auto pixel = m_context->reader->read_pixel(bits_per_pixel);
auto actual_row = row;
if (y_origin < height)
actual_row = height - 1 - row;
auto actual_col = col;
if (x_origin > width)
actual_col = width - 1 - col;
m_context->bitmap->scanline(actual_row)[actual_col] = pixel.data;
}
}
break;
}
case TGADataType::RunLengthEncodedRGB: {
size_t pixel_index = 0;
size_t pixel_count = height * width;
while (pixel_index < pixel_count) {
auto packet_type = m_context->reader->read_packet_type();
VERIFY(packet_type.pixels_count > 0);
TGAPixel pixel = m_context->reader->read_pixel(bits_per_pixel);
auto max_pixel_index = min(pixel_index + packet_type.pixels_count, pixel_count);
for (size_t current_pixel_index = pixel_index; current_pixel_index < max_pixel_index; ++current_pixel_index) {
int row = current_pixel_index / width;
int col = current_pixel_index % width;
auto actual_row = row;
if (y_origin < height)
actual_row = height - 1 - row;
auto actual_col = col;
if (x_origin > width)
actual_col = width - 1 - col;
m_context->bitmap->scanline(actual_row)[actual_col] = pixel.data;
if (packet_type.raw && (current_pixel_index + 1) < max_pixel_index)
pixel = m_context->reader->read_pixel(bits_per_pixel);
}
pixel_index += packet_type.pixels_count;
}
break;
}
default:
// FIXME: Implement other TGA data types
return Error::from_string_literal("TGAImageDecoderPlugin: Can currently only handle the UncompressedRGB or CompressedRGB data type");
}
VERIFY(m_context->bitmap);
return ImageFrameDescriptor { m_context->bitmap, 0 };
}
}
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