// Copyright (c) the JPEG XL Project Authors. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #include "lib/extras/dec/gif.h" #if JPEGXL_ENABLE_GIF #include #endif #include #include #include #include #include #include "lib/extras/size_constraints.h" #include "lib/jxl/base/compiler_specific.h" #include "lib/jxl/sanitizers.h" namespace jxl { namespace extras { #if JPEGXL_ENABLE_GIF namespace { struct ReadState { Span bytes; }; struct DGifCloser { void operator()(GifFileType* const ptr) const { DGifCloseFile(ptr, nullptr); } }; using GifUniquePtr = std::unique_ptr; struct PackedRgba { uint8_t r, g, b, a; }; struct PackedRgb { uint8_t r, g, b; }; void ensure_have_alpha(PackedFrame* frame) { if (!frame->extra_channels.empty()) return; const JxlPixelFormat alpha_format{ /*num_channels=*/1u, /*data_type=*/JXL_TYPE_UINT8, /*endianness=*/JXL_NATIVE_ENDIAN, /*align=*/0, }; frame->extra_channels.emplace_back(frame->color.xsize, frame->color.ysize, alpha_format); // We need to set opaque-by-default. std::fill_n(static_cast(frame->extra_channels[0].pixels()), frame->color.xsize * frame->color.ysize, 255u); } } // namespace #endif bool CanDecodeGIF() { #if JPEGXL_ENABLE_GIF return true; #else return false; #endif } Status DecodeImageGIF(Span bytes, const ColorHints& color_hints, PackedPixelFile* ppf, const SizeConstraints* constraints) { #if JPEGXL_ENABLE_GIF int error = GIF_OK; ReadState state = {bytes}; const auto ReadFromSpan = [](GifFileType* const gif, GifByteType* const bytes, int n) { ReadState* const state = reinterpret_cast(gif->UserData); // giflib API requires the input size `n` to be signed int. if (static_cast(n) > state->bytes.size()) { n = state->bytes.size(); } memcpy(bytes, state->bytes.data(), n); state->bytes.remove_prefix(n); return n; }; GifUniquePtr gif(DGifOpen(&state, ReadFromSpan, &error)); if (gif == nullptr) { if (error == D_GIF_ERR_NOT_GIF_FILE) { // Not an error. return false; } else { return JXL_FAILURE("Failed to read GIF: %s", GifErrorString(error)); } } error = DGifSlurp(gif.get()); if (error != GIF_OK) { return JXL_FAILURE("Failed to read GIF: %s", GifErrorString(gif->Error)); } msan::UnpoisonMemory(gif.get(), sizeof(*gif)); if (gif->SColorMap) { msan::UnpoisonMemory(gif->SColorMap, sizeof(*gif->SColorMap)); msan::UnpoisonMemory( gif->SColorMap->Colors, sizeof(*gif->SColorMap->Colors) * gif->SColorMap->ColorCount); } msan::UnpoisonMemory(gif->SavedImages, sizeof(*gif->SavedImages) * gif->ImageCount); JXL_RETURN_IF_ERROR( VerifyDimensions(constraints, gif->SWidth, gif->SHeight)); uint64_t total_pixel_count = static_cast(gif->SWidth) * gif->SHeight; for (int i = 0; i < gif->ImageCount; ++i) { const SavedImage& image = gif->SavedImages[i]; uint32_t w = image.ImageDesc.Width; uint32_t h = image.ImageDesc.Height; JXL_RETURN_IF_ERROR(VerifyDimensions(constraints, w, h)); uint64_t pixel_count = static_cast(w) * h; if (total_pixel_count + pixel_count < total_pixel_count) { return JXL_FAILURE("Image too big"); } total_pixel_count += pixel_count; if (constraints && (total_pixel_count > constraints->dec_max_pixels)) { return JXL_FAILURE("Image too big"); } } if (!gif->SColorMap) { for (int i = 0; i < gif->ImageCount; ++i) { if (!gif->SavedImages[i].ImageDesc.ColorMap) { return JXL_FAILURE("Missing GIF color map"); } } } if (gif->ImageCount > 1) { ppf->info.have_animation = true; // Delays in GIF are specified in 100ths of a second. ppf->info.animation.tps_numerator = 100; ppf->info.animation.tps_denominator = 1; } ppf->frames.clear(); ppf->frames.reserve(gif->ImageCount); ppf->info.xsize = gif->SWidth; ppf->info.ysize = gif->SHeight; ppf->info.bits_per_sample = 8; ppf->info.exponent_bits_per_sample = 0; // alpha_bits is later set to 8 if we find a frame with transparent pixels. ppf->info.alpha_bits = 0; ppf->info.alpha_exponent_bits = 0; JXL_RETURN_IF_ERROR(ApplyColorHints(color_hints, /*color_already_set=*/false, /*is_gray=*/false, ppf)); ppf->info.num_color_channels = 3; // Pixel format for the 'canvas' onto which we paint // the (potentially individually cropped) GIF frames // of an animation. const JxlPixelFormat canvas_format{ /*num_channels=*/4u, /*data_type=*/JXL_TYPE_UINT8, /*endianness=*/JXL_NATIVE_ENDIAN, /*align=*/0, }; // Pixel format for the JXL PackedFrame that goes into the // PackedPixelFile. Here, we use 3 color channels, and provide // the alpha channel as an extra_channel wherever it is used. const JxlPixelFormat packed_frame_format{ /*num_channels=*/3u, /*data_type=*/JXL_TYPE_UINT8, /*endianness=*/JXL_NATIVE_ENDIAN, /*align=*/0, }; GifColorType background_color; if (gif->SColorMap == nullptr || gif->SBackGroundColor >= gif->SColorMap->ColorCount) { background_color = {0, 0, 0}; } else { background_color = gif->SColorMap->Colors[gif->SBackGroundColor]; } const PackedRgba background_rgba{background_color.Red, background_color.Green, background_color.Blue, 0}; PackedFrame canvas(gif->SWidth, gif->SHeight, canvas_format); std::fill_n(static_cast(canvas.color.pixels()), canvas.color.xsize * canvas.color.ysize, background_rgba); Rect canvas_rect{0, 0, canvas.color.xsize, canvas.color.ysize}; Rect previous_rect_if_restore_to_background; bool replace = true; bool last_base_was_none = true; for (int i = 0; i < gif->ImageCount; ++i) { const SavedImage& image = gif->SavedImages[i]; msan::UnpoisonMemory(image.RasterBits, sizeof(*image.RasterBits) * image.ImageDesc.Width * image.ImageDesc.Height); const Rect image_rect(image.ImageDesc.Left, image.ImageDesc.Top, image.ImageDesc.Width, image.ImageDesc.Height); Rect total_rect; if (previous_rect_if_restore_to_background.xsize() != 0 || previous_rect_if_restore_to_background.ysize() != 0) { const size_t xbegin = std::min( image_rect.x0(), previous_rect_if_restore_to_background.x0()); const size_t ybegin = std::min( image_rect.y0(), previous_rect_if_restore_to_background.y0()); const size_t xend = std::max(image_rect.x0() + image_rect.xsize(), previous_rect_if_restore_to_background.x0() + previous_rect_if_restore_to_background.xsize()); const size_t yend = std::max(image_rect.y0() + image_rect.ysize(), previous_rect_if_restore_to_background.y0() + previous_rect_if_restore_to_background.ysize()); total_rect = Rect(xbegin, ybegin, xend - xbegin, yend - ybegin); previous_rect_if_restore_to_background = Rect(); replace = true; } else { total_rect = image_rect; replace = false; } if (!image_rect.IsInside(canvas_rect)) { return JXL_FAILURE("GIF frame extends outside of the canvas"); } // Allocates the frame buffer. ppf->frames.emplace_back(total_rect.xsize(), total_rect.ysize(), packed_frame_format); PackedFrame* frame = &ppf->frames.back(); // We cannot tell right from the start whether there will be a // need for an alpha channel. This is discovered only as soon as // we see a transparent pixel. We hence initialize alpha lazily. auto set_pixel_alpha = [&frame](size_t x, size_t y, uint8_t a) { // If we do not have an alpha-channel and a==255 (fully opaque), // we can skip setting this pixel-value and rely on // "no alpha channel = no transparency". if (a == 255 && !frame->extra_channels.empty()) return; ensure_have_alpha(frame); static_cast( frame->extra_channels[0].pixels())[y * frame->color.xsize + x] = a; }; const ColorMapObject* const color_map = image.ImageDesc.ColorMap ? image.ImageDesc.ColorMap : gif->SColorMap; JXL_CHECK(color_map); msan::UnpoisonMemory(color_map, sizeof(*color_map)); msan::UnpoisonMemory(color_map->Colors, sizeof(*color_map->Colors) * color_map->ColorCount); GraphicsControlBlock gcb; DGifSavedExtensionToGCB(gif.get(), i, &gcb); msan::UnpoisonMemory(&gcb, sizeof(gcb)); bool is_full_size = total_rect.x0() == 0 && total_rect.y0() == 0 && total_rect.xsize() == canvas.color.xsize && total_rect.ysize() == canvas.color.ysize; if (ppf->info.have_animation) { frame->frame_info.duration = gcb.DelayTime; frame->frame_info.layer_info.have_crop = static_cast(!is_full_size); frame->frame_info.layer_info.crop_x0 = total_rect.x0(); frame->frame_info.layer_info.crop_y0 = total_rect.y0(); frame->frame_info.layer_info.xsize = frame->color.xsize; frame->frame_info.layer_info.ysize = frame->color.ysize; if (last_base_was_none) { replace = true; } frame->frame_info.layer_info.blend_info.blendmode = replace ? JXL_BLEND_REPLACE : JXL_BLEND_BLEND; // We always only reference at most the last frame frame->frame_info.layer_info.blend_info.source = last_base_was_none ? 0u : 1u; frame->frame_info.layer_info.blend_info.clamp = 1; frame->frame_info.layer_info.blend_info.alpha = 0; // TODO(veluca): this could in principle be implemented. if (last_base_was_none && (total_rect.x0() != 0 || total_rect.y0() != 0 || total_rect.xsize() != canvas.color.xsize || total_rect.ysize() != canvas.color.ysize || !replace)) { return JXL_FAILURE( "GIF with dispose-to-0 is not supported for non-full or " "blended frames"); } switch (gcb.DisposalMode) { case DISPOSE_DO_NOT: case DISPOSE_BACKGROUND: frame->frame_info.layer_info.save_as_reference = 1u; last_base_was_none = false; break; case DISPOSE_PREVIOUS: frame->frame_info.layer_info.save_as_reference = 0u; break; default: frame->frame_info.layer_info.save_as_reference = 0u; last_base_was_none = true; } } // Update the canvas by creating a copy first. PackedImage new_canvas_image(canvas.color.xsize, canvas.color.ysize, canvas.color.format); memcpy(new_canvas_image.pixels(), canvas.color.pixels(), new_canvas_image.pixels_size); for (size_t y = 0, byte_index = 0; y < image_rect.ysize(); ++y) { // Assumes format.align == 0. row points to the beginning of the y row in // the image_rect. PackedRgba* row = static_cast(new_canvas_image.pixels()) + (y + image_rect.y0()) * new_canvas_image.xsize + image_rect.x0(); for (size_t x = 0; x < image_rect.xsize(); ++x, ++byte_index) { const GifByteType byte = image.RasterBits[byte_index]; if (byte >= color_map->ColorCount) { return JXL_FAILURE("GIF color is out of bounds"); } if (byte == gcb.TransparentColor) continue; GifColorType color = color_map->Colors[byte]; row[x].r = color.Red; row[x].g = color.Green; row[x].b = color.Blue; row[x].a = 255; } } const PackedImage& sub_frame_image = frame->color; if (replace) { // Copy from the new canvas image to the subframe for (size_t y = 0; y < total_rect.ysize(); ++y) { const PackedRgba* row_in = static_cast(new_canvas_image.pixels()) + (y + total_rect.y0()) * new_canvas_image.xsize + total_rect.x0(); PackedRgb* row_out = static_cast(sub_frame_image.pixels()) + y * sub_frame_image.xsize; for (size_t x = 0; x < sub_frame_image.xsize; ++x) { row_out[x].r = row_in[x].r; row_out[x].g = row_in[x].g; row_out[x].b = row_in[x].b; set_pixel_alpha(x, y, row_in[x].a); } } } else { for (size_t y = 0, byte_index = 0; y < image_rect.ysize(); ++y) { // Assumes format.align == 0 PackedRgb* row = static_cast(sub_frame_image.pixels()) + y * sub_frame_image.xsize; for (size_t x = 0; x < image_rect.xsize(); ++x, ++byte_index) { const GifByteType byte = image.RasterBits[byte_index]; if (byte > color_map->ColorCount) { return JXL_FAILURE("GIF color is out of bounds"); } if (byte == gcb.TransparentColor) { row[x].r = 0; row[x].g = 0; row[x].b = 0; set_pixel_alpha(x, y, 0); continue; } GifColorType color = color_map->Colors[byte]; row[x].r = color.Red; row[x].g = color.Green; row[x].b = color.Blue; set_pixel_alpha(x, y, 255); } } } if (!frame->extra_channels.empty()) { ppf->info.alpha_bits = 8; } switch (gcb.DisposalMode) { case DISPOSE_DO_NOT: canvas.color = std::move(new_canvas_image); break; case DISPOSE_BACKGROUND: std::fill_n(static_cast(canvas.color.pixels()), canvas.color.xsize * canvas.color.ysize, background_rgba); previous_rect_if_restore_to_background = image_rect; break; case DISPOSE_PREVIOUS: break; case DISPOSAL_UNSPECIFIED: default: std::fill_n(static_cast(canvas.color.pixels()), canvas.color.xsize * canvas.color.ysize, background_rgba); } } // Finally, if any frame has an alpha-channel, every frame will need // to have an alpha-channel. bool seen_alpha = false; for (const PackedFrame& frame : ppf->frames) { if (!frame.extra_channels.empty()) { seen_alpha = true; break; } } if (seen_alpha) { for (PackedFrame& frame : ppf->frames) { ensure_have_alpha(&frame); } } return true; #else return false; #endif } } // namespace extras } // namespace jxl