/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include "BitmapFont.h" #include "Emoji.h" #include #include #include #include #include #include #include namespace Gfx { struct [[gnu::packed]] FontFileHeader { char magic[4]; u8 glyph_width; u8 glyph_height; u16 range_mask_size; u8 is_variable_width; u8 glyph_spacing; u8 baseline; u8 mean_line; u8 presentation_size; u16 weight; u8 slope; char name[32]; char family[32]; }; static_assert(AssertSize()); static constexpr size_t s_max_glyph_count = 0x110000; static constexpr size_t s_max_range_mask_size = s_max_glyph_count / (256 * 8); NonnullRefPtr BitmapFont::clone() const { auto* new_range_mask = static_cast(malloc(m_range_mask_size)); memcpy(new_range_mask, m_range_mask, m_range_mask_size); size_t bytes_per_glyph = sizeof(u32) * glyph_height(); auto* new_rows = static_cast(kmalloc_array(m_glyph_count, bytes_per_glyph)); memcpy(new_rows, m_rows, bytes_per_glyph * m_glyph_count); auto* new_widths = static_cast(malloc(m_glyph_count)); memcpy(new_widths, m_glyph_widths, m_glyph_count); return adopt_ref(*new BitmapFont(m_name, m_family, new_rows, new_widths, m_fixed_width, m_glyph_width, m_glyph_height, m_glyph_spacing, m_range_mask_size, new_range_mask, m_baseline, m_mean_line, m_presentation_size, m_weight, m_slope, true)); } NonnullRefPtr BitmapFont::create(u8 glyph_height, u8 glyph_width, bool fixed, size_t glyph_count) { glyph_count += 256 - (glyph_count % 256); glyph_count = min(glyph_count, s_max_glyph_count); size_t glyphs_per_range = 8 * 256; u16 range_mask_size = ceil_div(glyph_count, glyphs_per_range); auto* new_range_mask = static_cast(calloc(range_mask_size, 1)); for (size_t i = 0; i < glyph_count; i += 256) { new_range_mask[i / 256 / 8] |= 1 << (i / 256 % 8); } size_t bytes_per_glyph = sizeof(u32) * glyph_height; auto* new_rows = static_cast(calloc(glyph_count, bytes_per_glyph)); auto* new_widths = static_cast(calloc(glyph_count, 1)); return adopt_ref(*new BitmapFont("Untitled", "Untitled", new_rows, new_widths, fixed, glyph_width, glyph_height, 1, range_mask_size, new_range_mask, 0, 0, 0, 400, 0, true)); } NonnullRefPtr BitmapFont::unmasked_character_set() const { auto* new_range_mask = static_cast(malloc(s_max_range_mask_size)); constexpr u8 max_bits { 0b1111'1111 }; memset(new_range_mask, max_bits, s_max_range_mask_size); size_t bytes_per_glyph = sizeof(u32) * glyph_height(); auto* new_rows = static_cast(kmalloc_array(s_max_glyph_count, bytes_per_glyph)); auto* new_widths = static_cast(calloc(s_max_glyph_count, 1)); for (size_t code_point = 0; code_point < s_max_glyph_count; ++code_point) { auto index = glyph_index(code_point); if (index.has_value()) { memcpy(&new_widths[code_point], &m_glyph_widths[index.value()], 1); memcpy(&new_rows[code_point * bytes_per_glyph], &m_rows[index.value() * bytes_per_glyph], bytes_per_glyph); } } return adopt_ref(*new BitmapFont(m_name, m_family, new_rows, new_widths, m_fixed_width, m_glyph_width, m_glyph_height, m_glyph_spacing, s_max_range_mask_size, new_range_mask, m_baseline, m_mean_line, m_presentation_size, m_weight, m_slope, true)); } NonnullRefPtr BitmapFont::masked_character_set() const { auto* new_range_mask = static_cast(calloc(s_max_range_mask_size, 1)); u16 new_range_mask_size { 0 }; for (size_t i = 0; i < s_max_glyph_count; ++i) { if (m_glyph_widths[i] > 0) { new_range_mask[i / 256 / 8] |= 1 << (i / 256 % 8); if (i / 256 / 8 + 1 > new_range_mask_size) new_range_mask_size = i / 256 / 8 + 1; } } size_t new_glyph_count { 0 }; for (size_t i = 0; i < new_range_mask_size; ++i) { new_glyph_count += 256 * popcount(new_range_mask[i]); } size_t bytes_per_glyph = sizeof(u32) * m_glyph_height; auto* new_rows = static_cast(calloc(new_glyph_count, bytes_per_glyph)); auto* new_widths = static_cast(calloc(new_glyph_count, 1)); for (size_t i = 0, j = 0; i < s_max_glyph_count; ++i) { if (!(new_range_mask[i / 256 / 8] & 1 << (i / 256 % 8))) { j++; i += 255; continue; } memcpy(&new_widths[i - j * 256], &m_glyph_widths[i], 1); memcpy(&new_rows[(i - j * 256) * bytes_per_glyph], &m_rows[i * bytes_per_glyph], bytes_per_glyph); } return adopt_ref(*new BitmapFont(m_name, m_family, new_rows, new_widths, m_fixed_width, m_glyph_width, m_glyph_height, m_glyph_spacing, new_range_mask_size, new_range_mask, m_baseline, m_mean_line, m_presentation_size, m_weight, m_slope, true)); } BitmapFont::BitmapFont(String name, String family, u8* rows, u8* widths, bool is_fixed_width, u8 glyph_width, u8 glyph_height, u8 glyph_spacing, u16 range_mask_size, u8* range_mask, u8 baseline, u8 mean_line, u8 presentation_size, u16 weight, u8 slope, bool owns_arrays) : m_name(move(name)) , m_family(move(family)) , m_range_mask_size(range_mask_size) , m_range_mask(range_mask) , m_rows(rows) , m_glyph_widths(widths) , m_glyph_width(glyph_width) , m_glyph_height(glyph_height) , m_min_glyph_width(glyph_width) , m_max_glyph_width(glyph_width) , m_glyph_spacing(glyph_spacing) , m_baseline(baseline) , m_mean_line(mean_line) , m_presentation_size(presentation_size) , m_weight(weight) , m_slope(slope) , m_fixed_width(is_fixed_width) , m_owns_arrays(owns_arrays) { VERIFY(m_range_mask); VERIFY(m_rows); VERIFY(m_glyph_widths); update_x_height(); for (size_t i = 0, index = 0; i < m_range_mask_size; ++i) { for (size_t j = 0; j < 8; ++j) { if (m_range_mask[i] & (1 << j)) { m_glyph_count += 256; m_range_indices.append(index++); } else { m_range_indices.append({}); } } } if (!m_fixed_width) { u8 maximum = 0; u8 minimum = 255; for (size_t i = 0; i < m_glyph_count; ++i) { minimum = min(minimum, m_glyph_widths[i]); maximum = max(maximum, m_glyph_widths[i]); } m_min_glyph_width = minimum; m_max_glyph_width = max(maximum, m_glyph_width); } } BitmapFont::~BitmapFont() { if (m_owns_arrays) { free(m_glyph_widths); free(m_rows); free(m_range_mask); } } RefPtr BitmapFont::load_from_memory(u8 const* data) { auto const& header = *reinterpret_cast(data); if (memcmp(header.magic, "!Fnt", 4)) { dbgln("header.magic != '!Fnt', instead it's '{:c}{:c}{:c}{:c}'", header.magic[0], header.magic[1], header.magic[2], header.magic[3]); return nullptr; } if (header.name[sizeof(header.name) - 1] != '\0') { dbgln("Font name not fully null-terminated"); return nullptr; } if (header.family[sizeof(header.family) - 1] != '\0') { dbgln("Font family not fully null-terminated"); return nullptr; } size_t bytes_per_glyph = sizeof(u32) * header.glyph_height; size_t glyph_count { 0 }; u8* range_mask = const_cast(data + sizeof(FontFileHeader)); for (size_t i = 0; i < header.range_mask_size; ++i) glyph_count += 256 * popcount(range_mask[i]); u8* rows = range_mask + header.range_mask_size; u8* widths = (u8*)(rows) + glyph_count * bytes_per_glyph; return adopt_ref(*new BitmapFont(String(header.name), String(header.family), rows, widths, !header.is_variable_width, header.glyph_width, header.glyph_height, header.glyph_spacing, header.range_mask_size, range_mask, header.baseline, header.mean_line, header.presentation_size, header.weight, header.slope)); } RefPtr BitmapFont::load_from_file(String const& path) { if (Core::File::is_device(path)) return nullptr; auto file_or_error = Core::MappedFile::map(path); if (file_or_error.is_error()) return nullptr; auto font = load_from_memory((u8 const*)file_or_error.value()->data()); if (!font) return nullptr; font->m_mapped_file = file_or_error.release_value(); return font; } bool BitmapFont::write_to_file(String const& path) { FontFileHeader header; memset(&header, 0, sizeof(FontFileHeader)); memcpy(header.magic, "!Fnt", 4); header.glyph_width = m_glyph_width; header.glyph_height = m_glyph_height; header.range_mask_size = m_range_mask_size; header.baseline = m_baseline; header.mean_line = m_mean_line; header.is_variable_width = !m_fixed_width; header.glyph_spacing = m_glyph_spacing; header.presentation_size = m_presentation_size; header.weight = m_weight; header.slope = m_slope; memcpy(header.name, m_name.characters(), min(m_name.length(), sizeof(header.name) - 1)); memcpy(header.family, m_family.characters(), min(m_family.length(), sizeof(header.family) - 1)); auto stream_result = Core::OutputFileStream::open_buffered(path); if (stream_result.is_error()) return false; auto& stream = stream_result.value(); size_t bytes_per_glyph = sizeof(u32) * m_glyph_height; stream << ReadonlyBytes { &header, sizeof(header) }; stream << ReadonlyBytes { m_range_mask, m_range_mask_size }; stream << ReadonlyBytes { m_rows, m_glyph_count * bytes_per_glyph }; stream << ReadonlyBytes { m_glyph_widths, m_glyph_count }; stream.flush(); return !stream.handle_any_error(); } Glyph BitmapFont::glyph(u32 code_point) const { // Note: Until all fonts support the 0xFFFD replacement // character, fall back to painting '?' if necessary. auto index = glyph_index(code_point).value_or('?'); auto width = m_glyph_widths[index]; return Glyph( GlyphBitmap(m_rows, index * m_glyph_height, { width, m_glyph_height }), 0, width, m_glyph_height); } Glyph BitmapFont::raw_glyph(u32 code_point) const { auto width = m_glyph_widths[code_point]; return Glyph( GlyphBitmap(m_rows, code_point * m_glyph_height, { width, m_glyph_height }), 0, width, m_glyph_height); } Optional BitmapFont::glyph_index(u32 code_point) const { auto index = code_point / 256; if (index >= m_range_indices.size()) return {}; if (!m_range_indices[index].has_value()) return {}; return m_range_indices[index].value() * 256 + code_point % 256; } bool BitmapFont::contains_glyph(u32 code_point) const { auto index = glyph_index(code_point); return index.has_value() && m_glyph_widths[index.value()] > 0; } u8 BitmapFont::glyph_width(u32 code_point) const { if (is_ascii(code_point) && !is_ascii_printable(code_point)) return 0; auto index = glyph_index(code_point); return m_fixed_width || !index.has_value() ? m_glyph_width : m_glyph_widths[index.value()]; } int BitmapFont::glyph_or_emoji_width_for_variable_width_font(u32 code_point) const { // FIXME: This is a hack in lieu of proper code point identification. // 0xFFFF is arbitrary but also the end of the Basic Multilingual Plane. if (code_point < 0xFFFF) { auto index = glyph_index(code_point); if (!index.has_value()) return glyph_width(0xFFFD); if (m_glyph_widths[index.value()] > 0) return glyph_width(code_point); return glyph_width(0xFFFD); } auto const* emoji = Emoji::emoji_for_code_point(code_point); if (emoji == nullptr) return glyph_width(0xFFFD); return glyph_height() * emoji->width() / emoji->height(); } int BitmapFont::width(StringView view) const { return unicode_view_width(Utf8View(view)); } int BitmapFont::width(Utf8View const& view) const { return unicode_view_width(view); } int BitmapFont::width(Utf32View const& view) const { return unicode_view_width(view); } template ALWAYS_INLINE int BitmapFont::unicode_view_width(T const& view) const { if (view.is_empty()) return 0; bool first = true; int width = 0; int longest_width = 0; for (u32 code_point : view) { if (code_point == '\n' || code_point == '\r') { first = true; longest_width = max(width, longest_width); width = 0; continue; } if (!first) width += glyph_spacing(); first = false; width += glyph_or_emoji_width(code_point); } longest_width = max(width, longest_width); return longest_width; } String BitmapFont::qualified_name() const { return String::formatted("{} {} {} {}", family(), presentation_size(), weight(), slope()); } String BitmapFont::variant() const { StringBuilder builder; builder.append(weight_to_name(weight())); if (slope() != 0) { if (builder.string_view() == "Regular"sv) builder.clear(); else builder.append(" "); builder.append(slope_to_name(slope())); } return builder.to_string(); } Font const& Font::bold_variant() const { if (m_bold_variant) return *m_bold_variant; m_bold_variant = Gfx::FontDatabase::the().get(family(), presentation_size(), 700, 0); if (!m_bold_variant) m_bold_variant = this; return *m_bold_variant; } FontMetrics Font::metrics(u32 code_point) const { return FontMetrics { .size = (float)presentation_size(), .x_height = (float)x_height(), .glyph_width = (float)glyph_width(code_point), .glyph_spacing = (float)glyph_spacing(), }; } }