/* * Copyright (c) 2021-2022, Matthew Olsson * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #define RENDERER_HANDLER(name) \ PDFErrorOr Renderer::handle_##name([[maybe_unused]] ReadonlySpan args, [[maybe_unused]] Optional> extra_resources) #define RENDERER_TODO(name) \ RENDERER_HANDLER(name) \ { \ return Error(Error::Type::RenderingUnsupported, "draw operation: " #name); \ } namespace PDF { // Use a RAII object to restore the graphics state, to make sure it gets restored even if // a TRY(handle_operator()) causes us to exit the operators loop early. // Explicitly resize stack size at the end so that if the recursive document contains // `q q unsupportedop Q Q`, we undo the stack pushes from the inner `q q` even if // `unsupportedop` terminates processing the inner instruction stream before `Q Q` // would normally pop state. class Renderer::ScopedState { public: ScopedState(Renderer& renderer) : m_renderer(renderer) , m_starting_stack_depth(m_renderer.m_graphics_state_stack.size()) { MUST(m_renderer.handle_save_state({})); } ~ScopedState() { m_renderer.m_graphics_state_stack.shrink(m_starting_stack_depth); } private: Renderer& m_renderer; size_t m_starting_stack_depth; }; PDFErrorsOr Renderer::render(Document& document, Page const& page, RefPtr bitmap, RenderingPreferences rendering_preferences) { return Renderer(document, page, bitmap, rendering_preferences).render(); } static void rect_path(Gfx::Path& path, float x, float y, float width, float height) { path.move_to({ x, y }); path.line_to({ x + width, y }); path.line_to({ x + width, y + height }); path.line_to({ x, y + height }); path.close(); } template static void rect_path(Gfx::Path& path, Gfx::Rect rect) { return rect_path(path, rect.x(), rect.y(), rect.width(), rect.height()); } template static Gfx::Path rect_path(Gfx::Rect const& rect) { Gfx::Path path; rect_path(path, rect); return path; } Renderer::Renderer(RefPtr document, Page const& page, RefPtr bitmap, RenderingPreferences rendering_preferences) : m_document(document) , m_bitmap(bitmap) , m_page(page) , m_painter(*bitmap) , m_anti_aliasing_painter(m_painter) , m_rendering_preferences(rendering_preferences) { auto media_box = m_page.media_box; Gfx::AffineTransform userspace_matrix; userspace_matrix.translate(media_box.lower_left_x, media_box.lower_left_y); float width = media_box.width(); float height = media_box.height(); float scale_x = static_cast(bitmap->width()) / width; float scale_y = static_cast(bitmap->height()) / height; userspace_matrix.scale(scale_x, scale_y); // PDF user-space coordinate y axis increases from bottom to top, so we have to // insert a horizontal reflection about the vertical midpoint into our transformation // matrix static Gfx::AffineTransform horizontal_reflection_matrix = { 1, 0, 0, -1, 0, 0 }; userspace_matrix.multiply(horizontal_reflection_matrix); userspace_matrix.translate(0.0f, -height); auto initial_clipping_path = rect_path(userspace_matrix.map(Gfx::FloatRect(0, 0, width, height))); m_graphics_state_stack.append(GraphicsState { userspace_matrix, { initial_clipping_path, initial_clipping_path } }); m_bitmap->fill(Gfx::Color::NamedColor::White); } PDFErrorsOr Renderer::render() { auto operators = TRY(Parser::parse_operators(m_document, TRY(m_page.page_contents(*m_document)))); Errors errors; for (auto& op : operators) { auto maybe_error = handle_operator(op); if (maybe_error.is_error()) { errors.add_error(maybe_error.release_error()); } } if (!errors.errors().is_empty()) return errors; return {}; } PDFErrorOr Renderer::handle_operator(Operator const& op, Optional> extra_resources) { switch (op.type()) { #define V(name, snake_name, symbol) \ case OperatorType::name: \ TRY(handle_##snake_name(op.arguments(), extra_resources)); \ break; ENUMERATE_OPERATORS(V) #undef V case OperatorType::TextNextLineShowString: TRY(handle_text_next_line_show_string(op.arguments())); break; case OperatorType::TextNextLineShowStringSetSpacing: TRY(handle_text_next_line_show_string_set_spacing(op.arguments())); break; } return {}; } RENDERER_HANDLER(save_state) { m_graphics_state_stack.append(state()); return {}; } RENDERER_HANDLER(restore_state) { m_graphics_state_stack.take_last(); return {}; } RENDERER_HANDLER(concatenate_matrix) { Gfx::AffineTransform new_transform( args[0].to_float(), args[1].to_float(), args[2].to_float(), args[3].to_float(), args[4].to_float(), args[5].to_float()); state().ctm.multiply(new_transform); m_text_rendering_matrix_is_dirty = true; return {}; } RENDERER_HANDLER(set_line_width) { state().line_width = args[0].to_float(); return {}; } RENDERER_HANDLER(set_line_cap) { state().line_cap_style = static_cast(args[0].get()); return {}; } RENDERER_HANDLER(set_line_join) { state().line_join_style = static_cast(args[0].get()); return {}; } RENDERER_HANDLER(set_miter_limit) { state().miter_limit = args[0].to_float(); return {}; } RENDERER_HANDLER(set_dash_pattern) { auto dash_array = MUST(m_document->resolve_to(args[0])); Vector pattern; for (auto& element : *dash_array) pattern.append(element.to_int()); state().line_dash_pattern = LineDashPattern { pattern, args[1].to_int() }; return {}; } RENDERER_HANDLER(set_color_rendering_intent) { state().color_rendering_intent = MUST(m_document->resolve_to(args[0]))->name(); return {}; } RENDERER_HANDLER(set_flatness_tolerance) { state().flatness_tolerance = args[0].to_float(); return {}; } RENDERER_HANDLER(set_graphics_state_from_dict) { auto resources = extra_resources.value_or(m_page.resources); auto dict_name = MUST(m_document->resolve_to(args[0]))->name(); auto ext_gstate_dict = MUST(resources->get_dict(m_document, CommonNames::ExtGState)); auto target_dict = MUST(ext_gstate_dict->get_dict(m_document, dict_name)); TRY(set_graphics_state_from_dict(target_dict)); return {}; } RENDERER_HANDLER(path_move) { m_current_path.move_to(map(args[0].to_float(), args[1].to_float())); return {}; } RENDERER_HANDLER(path_line) { VERIFY(!m_current_path.segments().is_empty()); m_current_path.line_to(map(args[0].to_float(), args[1].to_float())); return {}; } RENDERER_HANDLER(path_cubic_bezier_curve) { VERIFY(args.size() == 6); m_current_path.cubic_bezier_curve_to( map(args[0].to_float(), args[1].to_float()), map(args[2].to_float(), args[3].to_float()), map(args[4].to_float(), args[5].to_float())); return {}; } RENDERER_HANDLER(path_cubic_bezier_curve_no_first_control) { VERIFY(args.size() == 4); VERIFY(!m_current_path.segments().is_empty()); auto current_point = (*m_current_path.segments().rbegin())->point(); m_current_path.cubic_bezier_curve_to( current_point, map(args[0].to_float(), args[1].to_float()), map(args[2].to_float(), args[3].to_float())); return {}; } RENDERER_HANDLER(path_cubic_bezier_curve_no_second_control) { VERIFY(args.size() == 4); VERIFY(!m_current_path.segments().is_empty()); auto first_control_point = map(args[0].to_float(), args[1].to_float()); auto second_control_point = map(args[2].to_float(), args[3].to_float()); m_current_path.cubic_bezier_curve_to( first_control_point, second_control_point, second_control_point); return {}; } RENDERER_HANDLER(path_close) { m_current_path.close(); return {}; } RENDERER_HANDLER(path_append_rect) { auto rect = Gfx::FloatRect(args[0].to_float(), args[1].to_float(), args[2].to_float(), args[3].to_float()); rect_path(m_current_path, map(rect)); return {}; } /// // Path painting operations /// void Renderer::begin_path_paint() { auto bounding_box = state().clipping_paths.current.bounding_box(); m_painter.clear_clip_rect(); if (m_rendering_preferences.show_clipping_paths) { m_painter.stroke_path(rect_path(bounding_box), Color::Black, 1); } m_painter.add_clip_rect(bounding_box.to_type()); } void Renderer::end_path_paint() { m_current_path.clear(); m_painter.clear_clip_rect(); state().clipping_paths.current = state().clipping_paths.next; } RENDERER_HANDLER(path_stroke) { begin_path_paint(); m_anti_aliasing_painter.stroke_path(m_current_path, state().stroke_color, state().ctm.x_scale() * state().line_width); end_path_paint(); return {}; } RENDERER_HANDLER(path_close_and_stroke) { m_current_path.close(); TRY(handle_path_stroke(args)); return {}; } RENDERER_HANDLER(path_fill_nonzero) { begin_path_paint(); m_current_path.close_all_subpaths(); m_anti_aliasing_painter.fill_path(m_current_path, state().paint_color, Gfx::Painter::WindingRule::Nonzero); end_path_paint(); return {}; } RENDERER_HANDLER(path_fill_nonzero_deprecated) { return handle_path_fill_nonzero(args); } RENDERER_HANDLER(path_fill_evenodd) { begin_path_paint(); m_current_path.close_all_subpaths(); m_anti_aliasing_painter.fill_path(m_current_path, state().paint_color, Gfx::Painter::WindingRule::EvenOdd); end_path_paint(); return {}; } RENDERER_HANDLER(path_fill_stroke_nonzero) { m_anti_aliasing_painter.stroke_path(m_current_path, state().stroke_color, state().ctm.x_scale() * state().line_width); return handle_path_fill_nonzero(args); } RENDERER_HANDLER(path_fill_stroke_evenodd) { m_anti_aliasing_painter.stroke_path(m_current_path, state().stroke_color, state().ctm.x_scale() * state().line_width); return handle_path_fill_evenodd(args); } RENDERER_HANDLER(path_close_fill_stroke_nonzero) { m_current_path.close(); return handle_path_fill_stroke_nonzero(args); } RENDERER_HANDLER(path_close_fill_stroke_evenodd) { m_current_path.close(); return handle_path_fill_stroke_evenodd(args); } RENDERER_HANDLER(path_end) { begin_path_paint(); end_path_paint(); return {}; } RENDERER_HANDLER(path_intersect_clip_nonzero) { // FIXME: Support arbitrary path clipping in Path and utilize that here auto next_clipping_bbox = state().clipping_paths.next.bounding_box(); next_clipping_bbox.intersect(m_current_path.bounding_box()); state().clipping_paths.next = rect_path(next_clipping_bbox); return {}; } RENDERER_HANDLER(path_intersect_clip_evenodd) { // FIXME: Should have different behavior than path_intersect_clip_nonzero return handle_path_intersect_clip_nonzero(args); } RENDERER_HANDLER(text_begin) { m_text_matrix = Gfx::AffineTransform(); m_text_line_matrix = Gfx::AffineTransform(); return {}; } RENDERER_HANDLER(text_end) { // FIXME: Do we need to do anything here? return {}; } RENDERER_HANDLER(text_set_char_space) { text_state().character_spacing = args[0].to_float(); return {}; } RENDERER_HANDLER(text_set_word_space) { text_state().word_spacing = args[0].to_float(); return {}; } RENDERER_HANDLER(text_set_horizontal_scale) { m_text_rendering_matrix_is_dirty = true; text_state().horizontal_scaling = args[0].to_float() / 100.0f; return {}; } RENDERER_HANDLER(text_set_leading) { text_state().leading = args[0].to_float(); return {}; } PDFErrorOr> Renderer::get_font(FontCacheKey const& key) { auto it = m_font_cache.find(key); if (it != m_font_cache.end()) return it->value; auto font = TRY(PDFFont::create(m_document, key.font_dictionary, key.font_size)); m_font_cache.set(key, font); return font; } RENDERER_HANDLER(text_set_font) { auto target_font_name = MUST(m_document->resolve_to(args[0]))->name(); text_state().font_size = args[1].to_float(); auto& text_rendering_matrix = calculate_text_rendering_matrix(); auto font_size = text_rendering_matrix.x_scale() * text_state().font_size; auto resources = extra_resources.value_or(m_page.resources); auto fonts_dictionary = MUST(resources->get_dict(m_document, CommonNames::Font)); auto font_dictionary = MUST(fonts_dictionary->get_dict(m_document, target_font_name)); FontCacheKey cache_key { move(font_dictionary), font_size }; text_state().font = TRY(get_font(cache_key)); m_text_rendering_matrix_is_dirty = true; return {}; } RENDERER_HANDLER(text_set_rendering_mode) { text_state().rendering_mode = static_cast(args[0].get()); return {}; } RENDERER_HANDLER(text_set_rise) { m_text_rendering_matrix_is_dirty = true; text_state().rise = args[0].to_float(); return {}; } RENDERER_HANDLER(text_next_line_offset) { Gfx::AffineTransform transform(1.0f, 0.0f, 0.0f, 1.0f, args[0].to_float(), args[1].to_float()); m_text_line_matrix.multiply(transform); m_text_matrix = m_text_line_matrix; return {}; } RENDERER_HANDLER(text_next_line_and_set_leading) { text_state().leading = -args[1].to_float(); TRY(handle_text_next_line_offset(args)); return {}; } RENDERER_HANDLER(text_set_matrix_and_line_matrix) { Gfx::AffineTransform new_transform( args[0].to_float(), args[1].to_float(), args[2].to_float(), args[3].to_float(), args[4].to_float(), args[5].to_float()); m_text_line_matrix = new_transform; m_text_matrix = new_transform; m_text_rendering_matrix_is_dirty = true; // Settings the text/line matrix retroactively affects fonts if (text_state().font) { auto new_text_rendering_matrix = calculate_text_rendering_matrix(); text_state().font->set_font_size(text_state().font_size * new_text_rendering_matrix.x_scale()); } return {}; } RENDERER_HANDLER(text_next_line) { TRY(handle_text_next_line_offset(Array { 0.0f, -text_state().leading })); return {}; } RENDERER_HANDLER(text_show_string) { auto text = MUST(m_document->resolve_to(args[0]))->string(); TRY(show_text(text)); return {}; } RENDERER_HANDLER(text_next_line_show_string) { TRY(handle_text_next_line(args)); TRY(handle_text_show_string(args)); return {}; } RENDERER_HANDLER(text_next_line_show_string_set_spacing) { TRY(handle_text_set_word_space(args.slice(0, 1))); TRY(handle_text_set_char_space(args.slice(1, 1))); TRY(handle_text_next_line_show_string(args.slice(2))); return {}; } RENDERER_HANDLER(text_show_string_array) { auto elements = MUST(m_document->resolve_to(args[0]))->elements(); for (auto& element : elements) { if (element.has()) { float shift = (float)element.get() / 1000.0f; m_text_matrix.translate(-shift * text_state().font_size * text_state().horizontal_scaling, 0.0f); } else if (element.has()) { float shift = element.get() / 1000.0f; m_text_matrix.translate(-shift * text_state().font_size * text_state().horizontal_scaling, 0.0f); } else { auto str = element.get>()->cast()->string(); TRY(show_text(str)); } } return {}; } RENDERER_HANDLER(type3_font_set_glyph_width) { // FIXME: Do something with this. return {}; } RENDERER_HANDLER(type3_font_set_glyph_width_and_bbox) { // FIXME: Do something with this. return {}; } RENDERER_HANDLER(set_stroking_space) { state().stroke_color_space = TRY(get_color_space_from_resources(args[0], extra_resources.value_or(m_page.resources))); VERIFY(state().stroke_color_space); return {}; } RENDERER_HANDLER(set_painting_space) { state().paint_color_space = TRY(get_color_space_from_resources(args[0], extra_resources.value_or(m_page.resources))); VERIFY(state().paint_color_space); return {}; } RENDERER_HANDLER(set_stroking_color) { state().stroke_color = TRY(state().stroke_color_space->color(args)); return {}; } RENDERER_HANDLER(set_stroking_color_extended) { // FIXME: Handle Pattern color spaces auto last_arg = args.last(); if (last_arg.has>() && last_arg.get>()->is()) { dbgln("pattern space {}", last_arg.get>()->cast()->name()); return Error::rendering_unsupported_error("Pattern color spaces not yet implemented"); } state().stroke_color = TRY(state().stroke_color_space->color(args)); return {}; } RENDERER_HANDLER(set_painting_color) { state().paint_color = TRY(state().paint_color_space->color(args)); return {}; } RENDERER_HANDLER(set_painting_color_extended) { // FIXME: Handle Pattern color spaces auto last_arg = args.last(); if (last_arg.has>() && last_arg.get>()->is()) { dbgln("pattern space {}", last_arg.get>()->cast()->name()); return Error::rendering_unsupported_error("Pattern color spaces not yet implemented"); } state().paint_color = TRY(state().paint_color_space->color(args)); return {}; } RENDERER_HANDLER(set_stroking_color_and_space_to_gray) { state().stroke_color_space = DeviceGrayColorSpace::the(); state().stroke_color = TRY(state().stroke_color_space->color(args)); return {}; } RENDERER_HANDLER(set_painting_color_and_space_to_gray) { state().paint_color_space = DeviceGrayColorSpace::the(); state().paint_color = TRY(state().paint_color_space->color(args)); return {}; } RENDERER_HANDLER(set_stroking_color_and_space_to_rgb) { state().stroke_color_space = DeviceRGBColorSpace::the(); state().stroke_color = TRY(state().stroke_color_space->color(args)); return {}; } RENDERER_HANDLER(set_painting_color_and_space_to_rgb) { state().paint_color_space = DeviceRGBColorSpace::the(); state().paint_color = TRY(state().paint_color_space->color(args)); return {}; } RENDERER_HANDLER(set_stroking_color_and_space_to_cmyk) { state().stroke_color_space = DeviceCMYKColorSpace::the(); state().stroke_color = TRY(state().stroke_color_space->color(args)); return {}; } RENDERER_HANDLER(set_painting_color_and_space_to_cmyk) { state().paint_color_space = DeviceCMYKColorSpace::the(); state().paint_color = TRY(state().paint_color_space->color(args)); return {}; } RENDERER_TODO(shade) RENDERER_TODO(inline_image_begin) RENDERER_TODO(inline_image_begin_data) RENDERER_TODO(inline_image_end) RENDERER_HANDLER(paint_xobject) { VERIFY(args.size() > 0); auto resources = extra_resources.value_or(m_page.resources); auto xobject_name = args[0].get>()->cast()->name(); auto xobjects_dict = TRY(resources->get_dict(m_document, CommonNames::XObject)); auto xobject = TRY(xobjects_dict->get_stream(m_document, xobject_name)); Optional> xobject_resources {}; if (xobject->dict()->contains(CommonNames::Resources)) { xobject_resources = xobject->dict()->get_dict(m_document, CommonNames::Resources).value(); } auto subtype = MUST(xobject->dict()->get_name(m_document, CommonNames::Subtype))->name(); if (subtype == CommonNames::Image) { TRY(show_image(xobject)); return {}; } ScopedState scoped_state { *this }; Vector matrix; if (xobject->dict()->contains(CommonNames::Matrix)) { matrix = xobject->dict()->get_array(m_document, CommonNames::Matrix).value()->elements(); } else { matrix = Vector { Value { 1 }, Value { 0 }, Value { 0 }, Value { 1 }, Value { 0 }, Value { 0 } }; } MUST(handle_concatenate_matrix(matrix)); auto operators = TRY(Parser::parse_operators(m_document, xobject->bytes())); for (auto& op : operators) TRY(handle_operator(op, xobject_resources)); return {}; } RENDERER_HANDLER(marked_content_point) { // nop return {}; } RENDERER_HANDLER(marked_content_designate) { // nop return {}; } RENDERER_HANDLER(marked_content_begin) { // nop return {}; } RENDERER_HANDLER(marked_content_begin_with_property_list) { // nop return {}; } RENDERER_HANDLER(marked_content_end) { // nop return {}; } RENDERER_TODO(compatibility_begin) RENDERER_TODO(compatibility_end) template Gfx::Point Renderer::map(T x, T y) const { return state().ctm.map(Gfx::Point { x, y }); } template Gfx::Size Renderer::map(Gfx::Size size) const { return state().ctm.map(size); } template Gfx::Rect Renderer::map(Gfx::Rect rect) const { return state().ctm.map(rect); } PDFErrorOr Renderer::set_graphics_state_from_dict(NonnullRefPtr dict) { // ISO 32000 (PDF 2.0), 8.4.5 Graphics state parameter dictionaries if (dict->contains(CommonNames::LW)) TRY(handle_set_line_width(Array { dict->get_value(CommonNames::LW) })); if (dict->contains(CommonNames::LC)) TRY(handle_set_line_cap(Array { dict->get_value(CommonNames::LC) })); if (dict->contains(CommonNames::LJ)) TRY(handle_set_line_join(Array { dict->get_value(CommonNames::LJ) })); if (dict->contains(CommonNames::ML)) TRY(handle_set_miter_limit(Array { dict->get_value(CommonNames::ML) })); if (dict->contains(CommonNames::D)) { auto array = MUST(dict->get_array(m_document, CommonNames::D)); TRY(handle_set_dash_pattern(array->elements())); } if (dict->contains(CommonNames::RI)) TRY(handle_set_color_rendering_intent(Array { dict->get_value(CommonNames::RI) })); // FIXME: OP // FIXME: op // FIXME: OPM // FIXME: Font // FIXME: BG // FIXME: BG2 // FIXME: UCR // FIXME: UCR2 // FIXME: TR // FIXME: TR2 // FIXME: HT if (dict->contains(CommonNames::FL)) TRY(handle_set_flatness_tolerance(Array { dict->get_value(CommonNames::FL) })); // FIXME: SM // FIXME: SA // FIXME: BM // FIXME: SMask // FIXME: CA // FIXME: ca // FIXME: AIS // FIXME: TK // FIXME: UseBlackPtComp // FIXME: HTO return {}; } PDFErrorOr Renderer::show_text(DeprecatedString const& string) { if (!text_state().font) return Error::rendering_unsupported_error("Can't draw text because an invalid font was in use"); auto const& text_rendering_matrix = calculate_text_rendering_matrix(); auto start_position = text_rendering_matrix.map(Gfx::FloatPoint { 0.0f, 0.0f }); auto end_position = TRY(text_state().font->draw_string(m_painter, start_position, string, *this)); // Update text matrix auto delta_x = end_position.x() - start_position.x(); m_text_rendering_matrix_is_dirty = true; m_text_matrix.translate(delta_x / text_rendering_matrix.x_scale(), 0.0f); return {}; } static Vector upsample_to_8_bit(ReadonlyBytes content, int bits_per_component) { VERIFY(bits_per_component == 1 || bits_per_component == 2 || bits_per_component == 4); Vector upsampled_storage; upsampled_storage.ensure_capacity(content.size() * 8 / bits_per_component); u8 const mask = (1 << bits_per_component) - 1; for (auto byte : content) { for (int i = 0; i < 8; i += bits_per_component) { auto value = (byte >> (8 - bits_per_component - i)) & mask; upsampled_storage.append(value * (255 / mask)); } } return upsampled_storage; } PDFErrorOr> Renderer::load_image(NonnullRefPtr image) { auto image_dict = image->dict(); auto width = TRY(m_document->resolve_to(image_dict->get_value(CommonNames::Width))); auto height = TRY(m_document->resolve_to(image_dict->get_value(CommonNames::Height))); auto is_filter = [&](DeprecatedFlyString const& name) -> PDFErrorOr { if (!image_dict->contains(CommonNames::Filter)) return false; auto filter_object = TRY(image_dict->get_object(m_document, CommonNames::Filter)); if (filter_object->is()) return filter_object->cast()->name() == name; auto filters = filter_object->cast(); auto last_filter_index = filters->elements().size() - 1; return MUST(filters->get_name_at(m_document, last_filter_index))->name() == name; }; if (TRY(is_filter(CommonNames::JPXDecode))) { return Error(Error::Type::RenderingUnsupported, "JPXDecode filter"); } if (image_dict->contains(CommonNames::ImageMask)) { auto is_mask = TRY(m_document->resolve_to(image_dict->get_value(CommonNames::ImageMask))); if (is_mask) { return Error(Error::Type::RenderingUnsupported, "Image masks"); } } // "(Required for images, except those that use the JPXDecode filter; not allowed for image masks) [...] // it can be any type of color space except Pattern." auto color_space_object = MUST(image_dict->get_object(m_document, CommonNames::ColorSpace)); auto color_space = TRY(get_color_space_from_document(color_space_object)); auto color_rendering_intent = state().color_rendering_intent; if (image_dict->contains(CommonNames::Intent)) color_rendering_intent = TRY(image_dict->get_name(m_document, CommonNames::Intent))->name(); // FIXME: Do something with color_rendering_intent. // "Valid values are 1, 2, 4, 8, and (in PDF 1.5) 16." auto bits_per_component = TRY(m_document->resolve_to(image_dict->get_value(CommonNames::BitsPerComponent))); switch (bits_per_component) { case 1: case 2: case 4: case 8: case 16: // Ok! break; default: return Error(Error::Type::MalformedPDF, "Image's /BitsPerComponent invalid"); } auto content = image->bytes(); Vector upsampled_storage; if (bits_per_component < 8) { upsampled_storage = upsample_to_8_bit(content, bits_per_component); content = upsampled_storage; bits_per_component = 8; } if (bits_per_component == 16) { return Error(Error::Type::RenderingUnsupported, "16 bpp images not yet supported"); } Vector decode_array; if (image_dict->contains(CommonNames::Decode)) { decode_array = MUST(image_dict->get_array(m_document, CommonNames::Decode))->float_elements(); } else { decode_array = color_space->default_decode(); } Vector component_value_decoders; component_value_decoders.ensure_capacity(decode_array.size()); for (size_t i = 0; i < decode_array.size(); i += 2) { auto dmin = decode_array[i]; auto dmax = decode_array[i + 1]; component_value_decoders.empend(0.0f, 255.0f, dmin, dmax); } if (TRY(is_filter(CommonNames::DCTDecode))) { // TODO: stream objects could store Variant to avoid serialisation/deserialisation here return TRY(Gfx::Bitmap::create_from_serialized_bytes(image->bytes())); } auto bitmap = MUST(Gfx::Bitmap::create(Gfx::BitmapFormat::BGRA8888, { width, height })); int x = 0; int y = 0; int const n_components = color_space->number_of_components(); auto const bytes_per_component = bits_per_component / 8; Vector component_values; component_values.resize(n_components); while (!content.is_empty() && y < height) { auto sample = content.slice(0, bytes_per_component * n_components); content = content.slice(bytes_per_component * n_components); for (int i = 0; i < n_components; ++i) { auto component = sample.slice(0, bytes_per_component); sample = sample.slice(bytes_per_component); component_values[i] = Value { component_value_decoders[i].interpolate(component[0]) }; } auto color = TRY(color_space->color(component_values)); bitmap->set_pixel(x, y, color); ++x; if (x == width) { x = 0; ++y; } } return bitmap; } Gfx::AffineTransform Renderer::calculate_image_space_transformation(int width, int height) { // Image space maps to a 1x1 unit of user space and starts at the top-left auto image_space = state().ctm; image_space.multiply(Gfx::AffineTransform( 1.0f / width, 0.0f, 0.0f, -1.0f / height, 0.0f, 1.0f)); return image_space; } void Renderer::show_empty_image(int width, int height) { auto image_space_transofmation = calculate_image_space_transformation(width, height); auto image_border = image_space_transofmation.map(Gfx::IntRect { 0, 0, width, height }); m_painter.stroke_path(rect_path(image_border), Color::Black, 1); } PDFErrorOr Renderer::show_image(NonnullRefPtr image) { auto image_dict = image->dict(); auto width = TRY(m_document->resolve_to(image_dict->get_value(CommonNames::Width))); auto height = TRY(m_document->resolve_to(image_dict->get_value(CommonNames::Height))); if (!m_rendering_preferences.show_images) { show_empty_image(width, height); return {}; } auto image_bitmap = TRY(load_image(image)); if (image_dict->contains(CommonNames::SMask)) { auto smask_bitmap = TRY(load_image(TRY(image_dict->get_stream(m_document, CommonNames::SMask)))); // Make softmask same size as image. // FIXME: The smask code here is fairly ad-hoc and incomplete. if (smask_bitmap->size() != image_bitmap->size()) smask_bitmap = TRY(smask_bitmap->scaled_to_size(image_bitmap->size())); image_bitmap->add_alpha_channel(); for (int j = 0; j < image_bitmap->height(); ++j) { for (int i = 0; i < image_bitmap->width(); ++i) { auto image_color = image_bitmap->get_pixel(i, j); auto smask_color = smask_bitmap->get_pixel(i, j); image_color = image_color.with_alpha(smask_color.luminosity()); image_bitmap->set_pixel(i, j, image_color); } } } auto image_space = calculate_image_space_transformation(width, height); auto image_rect = Gfx::FloatRect { 0, 0, width, height }; m_painter.draw_scaled_bitmap_with_transform(image_bitmap->rect(), image_bitmap, image_rect, image_space); return {}; } PDFErrorOr> Renderer::get_color_space_from_resources(Value const& value, NonnullRefPtr resources) { auto color_space_name = value.get>()->cast()->name(); auto maybe_color_space_family = ColorSpaceFamily::get(color_space_name); if (!maybe_color_space_family.is_error()) { auto color_space_family = maybe_color_space_family.release_value(); if (color_space_family.may_be_specified_directly()) { return ColorSpace::create(color_space_name); } } auto color_space_resource_dict = TRY(resources->get_dict(m_document, CommonNames::ColorSpace)); if (!color_space_resource_dict->contains(color_space_name)) { dbgln("missing key {}", color_space_name); return Error::rendering_unsupported_error("Missing entry for color space name"); } return get_color_space_from_document(TRY(color_space_resource_dict->get_object(m_document, color_space_name))); } PDFErrorOr> Renderer::get_color_space_from_document(NonnullRefPtr color_space_object) { return ColorSpace::create(m_document, color_space_object); } Gfx::AffineTransform const& Renderer::calculate_text_rendering_matrix() const { if (m_text_rendering_matrix_is_dirty) { m_text_rendering_matrix = Gfx::AffineTransform( text_state().horizontal_scaling, 0.0f, 0.0f, 1.0f, 0.0f, text_state().rise); m_text_rendering_matrix.multiply(state().ctm); m_text_rendering_matrix.multiply(m_text_matrix); m_text_rendering_matrix_is_dirty = false; } return m_text_rendering_matrix; } PDFErrorOr Renderer::render_type3_glyph(Gfx::FloatPoint point, StreamObject const& glyph_data, Gfx::AffineTransform const& font_matrix, Optional> resources) { ScopedState scoped_state { *this }; auto text_rendering_matrix = calculate_text_rendering_matrix(); text_rendering_matrix.set_translation(point); state().ctm = text_rendering_matrix; state().ctm.scale(text_state().font_size, text_state().font_size); state().ctm.multiply(font_matrix); m_text_rendering_matrix_is_dirty = true; auto operators = TRY(Parser::parse_operators(m_document, glyph_data.bytes())); for (auto& op : operators) TRY(handle_operator(op, resources)); return {}; } }