/* * Copyright (c) 2020, Hüseyin Aslıtürk * Copyright (c) 2020-2022, the SerenityOS developers. * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include #include #include #include #include namespace Gfx { static constexpr Color adjust_color(u16 max_val, Color color) { color.set_red((color.red() * 255) / max_val); color.set_green((color.green() * 255) / max_val); color.set_blue((color.blue() * 255) / max_val); return color; } template static bool read_number(Streamer& streamer, TValue* value) { u8 byte {}; StringBuilder sb {}; while (streamer.read(byte)) { if (byte == ' ' || byte == '\t' || byte == '\n' || byte == '\r') { streamer.step_back(); break; } sb.append(byte); } auto const opt_value = sb.to_string().to_uint(); if (!opt_value.has_value()) { *value = 0; return false; } *value = static_cast(opt_value.value()); return true; } template static bool read_comment([[maybe_unused]] TContext& context, Streamer& streamer) { bool exist = false; u8 byte {}; while (streamer.read(byte)) { if (byte == '#') { exist = true; } else if (byte == '\t' || byte == '\n') { return exist; } } return exist; } template static bool read_magic_number(TContext& context, Streamer& streamer) { if (context.state >= TContext::State::MagicNumber) { return true; } if (!context.data || context.data_size < 2) { context.state = TContext::State::Error; dbgln_if(PORTABLE_IMAGE_LOADER_DEBUG, "There is no enough data for {}", TContext::FormatDetails::image_type); return false; } u8 magic_number[2] {}; if (!streamer.read_bytes(magic_number, 2)) { context.state = TContext::State::Error; dbgln_if(PORTABLE_IMAGE_LOADER_DEBUG, "We can't read magic number for {}", TContext::FormatDetails::image_type); return false; } if (magic_number[0] == 'P' && magic_number[1] == TContext::FormatDetails::ascii_magic_number) { context.type = TContext::Type::ASCII; context.state = TContext::State::MagicNumber; return true; } if (magic_number[0] == 'P' && magic_number[1] == TContext::FormatDetails::binary_magic_number) { context.type = TContext::Type::RAWBITS; context.state = TContext::State::MagicNumber; return true; } context.state = TContext::State::Error; dbgln_if(PORTABLE_IMAGE_LOADER_DEBUG, "Magic number is not valid for {}{}{}", magic_number[0], magic_number[1], TContext::FormatDetails::image_type); return false; } template static bool read_whitespace(TContext& context, Streamer& streamer) { bool exist = false; u8 byte {}; while (streamer.read(byte)) { if (byte == ' ' || byte == '\t' || byte == '\n' || byte == '\r') { exist = true; } else if (byte == '#') { streamer.step_back(); read_comment(context, streamer); } else { streamer.step_back(); return exist; } } return exist; } template static bool read_width(TContext& context, Streamer& streamer) { if (bool const result = read_number(streamer, &context.width); !result || context.width == 0) { return false; } context.state = TContext::State::Width; return true; } template static bool read_height(TContext& context, Streamer& streamer) { if (bool const result = read_number(streamer, &context.height); !result || context.height == 0) { return false; } context.state = TContext::State::Height; return true; } template static bool read_max_val(TContext& context, Streamer& streamer) { if (bool const result = read_number(streamer, &context.format_details.max_val); !result || context.format_details.max_val == 0) { return false; } if (context.format_details.max_val > 255) { dbgln_if(PORTABLE_IMAGE_LOADER_DEBUG, "We can't parse 2 byte color for {}", TContext::FormatDetails::image_type); context.state = TContext::State::Error; return false; } context.state = TContext::State::Maxval; return true; } template static bool create_bitmap(TContext& context) { auto bitmap_or_error = Bitmap::try_create(BitmapFormat::BGRx8888, { context.width, context.height }); if (bitmap_or_error.is_error()) { context.state = TContext::State::Error; return false; } context.bitmap = bitmap_or_error.release_value_but_fixme_should_propagate_errors(); return true; } template static void set_pixels(TContext& context, Vector const& color_data) { size_t index = 0; for (size_t y = 0; y < context.height; ++y) { for (size_t x = 0; x < context.width; ++x) { context.bitmap->set_pixel(x, y, color_data.at(index)); index++; } } } template static bool decode(TContext& context) { if (context.state >= TContext::State::Decoded) return true; auto error_guard = ArmedScopeGuard([&] { context.state = TContext::State::Error; }); Streamer streamer(context.data, context.data_size); if (!read_magic_number(context, streamer)) return false; if (!read_whitespace(context, streamer)) return false; if (!read_width(context, streamer)) return false; if (!read_whitespace(context, streamer)) return false; if (!read_height(context, streamer)) return false; if (context.width > maximum_width_for_decoded_images || context.height > maximum_height_for_decoded_images) { dbgln("This portable network image is too large for comfort: {}x{}", context.width, context.height); return false; } if (!read_whitespace(context, streamer)) return false; if constexpr (requires { context.format_details.max_val; }) { if (!read_max_val(context, streamer)) return false; if (!read_whitespace(context, streamer)) return false; } if (!read_image_data(context, streamer)) return false; error_guard.disarm(); context.state = TContext::State::Decoded; return true; } template static RefPtr load_impl(u8 const* data, size_t data_size) { TContext context {}; context.data = data; context.data_size = data_size; if (!decode(context)) { return nullptr; } return context.bitmap; } template static RefPtr load_from_memory(u8 const* data, size_t length, String const& mmap_name) { auto bitmap = load_impl(data, length); if (bitmap) bitmap->set_mmap_name(String::formatted("Gfx::Bitmap [{}] - Decoded {}: {}", bitmap->size(), TContext::FormatDetails::image_type, mmap_name)); return bitmap; } }