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serenity/Userland/Libraries/LibPDF/Fonts/CFF.cpp
Rodrigo Tobar 3eaa27f53a LibPDF: Add infrastructure for accented character glyphs 
Type1 accented character glyphs are composed of two other glyphs in the
same font: a base glyph and an accent glyph, given as char codes in the
standard encoding. These two glyphs are then composed together to form
the accented character.

This commit adds the data structures to hold the information for
accented characters, and also the routine that composes the final glyph
path out of the two individual components. All glyphs must have been
loaded by the time this composition takes place, and thus a new
protected consolidate_glyphs() routine has been added to perform this
calculation.
2023-02-08 19:47:15 +01:00

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/*
* Copyright (c) 2023, Rodrigo Tobar <rtobarc@gmail.com>.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Endian.h>
#include <AK/String.h>
#include <LibGfx/Forward.h>
#include <LibPDF/Encoding.h>
#include <LibPDF/Error.h>
#include <LibPDF/Fonts/CFF.h>
#include <LibPDF/Reader.h>
namespace PDF {
PDFErrorOr<NonnullRefPtr<CFF>> CFF::create(ReadonlyBytes const& cff_bytes, RefPtr<Encoding> encoding)
{
Reader reader(cff_bytes);
// Header
// skip major, minor version
reader.consume(2);
auto header_size = TRY(reader.try_read<Card8>());
// skip offset size
reader.consume(1);
reader.move_to(header_size);
// Name INDEX
Vector<String> font_names;
TRY(parse_index(reader, [&](ReadonlyBytes const& data) -> PDFErrorOr<void> {
auto string = TRY(String::from_utf8(data));
return TRY(font_names.try_append(string));
}));
auto cff = adopt_ref(*new CFF());
cff->set_font_matrix({ 0.001f, 0.0f, 0.0f, 0.001f, 0.0f, 0.0f });
// Top DICT INDEX
int charset_offset = 0;
Vector<u8> encoding_codes;
auto charstrings_offset = 0;
Vector<ByteBuffer> subroutines;
int defaultWidthX = 0;
int nominalWidthX = 0;
TRY(parse_index(reader, [&](ReadonlyBytes const& element_data) {
Reader element_reader { element_data };
return parse_dict<TopDictOperator>(element_reader, [&](TopDictOperator op, Vector<DictOperand> const& operands) -> PDFErrorOr<void> {
switch (op) {
case TopDictOperator::Encoding: {
auto encoding_offset = 0;
if (!operands.is_empty())
encoding_offset = operands[0].get<int>();
encoding_codes = TRY(parse_encoding(Reader(cff_bytes.slice(encoding_offset))));
break;
}
case TopDictOperator::Charset: {
if (!operands.is_empty())
charset_offset = operands[0].get<int>();
break;
}
case TopDictOperator::CharStrings: {
if (!operands.is_empty())
charstrings_offset = operands[0].get<int>();
break;
}
case TopDictOperator::Private: {
auto private_dict_size = operands[0].get<int>();
auto private_dict_offset = operands[1].get<int>();
Reader priv_dict_reader { cff_bytes.slice(private_dict_offset, private_dict_size) };
TRY(parse_dict<PrivDictOperator>(priv_dict_reader, [&](PrivDictOperator op, Vector<DictOperand> const& operands) -> PDFErrorOr<void> {
switch (op) {
case PrivDictOperator::Subrs: {
auto subrs_offset = operands[0].get<int>();
Reader subrs_reader { cff_bytes.slice(private_dict_offset + subrs_offset) };
dbgln("Parsing Subrs INDEX");
TRY(parse_index(subrs_reader, [&](ReadonlyBytes const& subroutine_bytes) -> PDFErrorOr<void> {
return TRY(subroutines.try_append(TRY(ByteBuffer::copy(subroutine_bytes))));
}));
break;
}
case PrivDictOperator::DefaultWidthX:
defaultWidthX = operands[0].get<int>();
break;
case PrivDictOperator::NominalWidthX:
nominalWidthX = operands[0].get<int>();
break;
}
return {};
}));
break;
}
default:;
}
return {};
});
}));
// Create glpyhs (now that we have the subroutines) and associate missing information to store them and their encoding
auto glyphs = TRY(parse_charstrings(Reader(cff_bytes.slice(charstrings_offset)), subroutines));
auto charset = TRY(parse_charset(Reader { cff_bytes.slice(charset_offset) }, glyphs.size()));
// Adjust glyphs' widths as they are deltas from nominalWidthX
for (auto& glyph : glyphs) {
if (!glyph.has_width())
glyph.set_width(float(defaultWidthX));
else
glyph.set_width(glyph.width() + float(nominalWidthX));
}
for (size_t i = 0; i < glyphs.size(); i++) {
if (i == 0) {
TRY(cff->add_glyph(0, move(glyphs[0])));
continue;
}
auto const& name = charset[i - 1];
TRY(cff->add_glyph(name, move(glyphs[i])));
}
cff->consolidate_glyphs();
// Encoding given or read
if (encoding) {
cff->set_encoding(move(encoding));
} else {
auto encoding = Encoding::create();
for (size_t i = 0; i < glyphs.size(); i++) {
if (i == 0) {
encoding->set(0, ".notdef");
continue;
}
auto code = encoding_codes[i - 1];
auto char_name = charset[i - 1];
encoding->set(code, char_name);
}
cff->set_encoding(move(encoding));
}
return cff;
}
HashMap<CFF::SID, DeprecatedFlyString> CFF::builtin_names {
{ 0, ".notdef" },
{ 1, "space" },
{ 9, "parenleft" },
{ 10, "parenright" },
{ 13, "comma" },
{ 14, "hyphen" },
{ 15, "period" },
{ 17, "zero" },
{ 18, "one" },
{ 19, "two" },
{ 20, "three" },
{ 21, "four" },
{ 22, "five" },
{ 23, "six" },
{ 24, "seven" },
{ 25, "eight" },
{ 26, "nine" },
{ 27, "colon" },
{ 28, "semicolon" },
{ 34, "A" },
{ 35, "B" },
{ 36, "C" },
{ 37, "D" },
{ 38, "E" },
{ 39, "F" },
{ 40, "G" },
{ 41, "H" },
{ 42, "I" },
{ 43, "J" },
{ 44, "K" },
{ 45, "L" },
{ 46, "M" },
{ 47, "N" },
{ 48, "O" },
{ 49, "P" },
{ 50, "Q" },
{ 51, "R" },
{ 52, "S" },
{ 53, "T" },
{ 54, "U" },
{ 55, "V" },
{ 56, "W" },
{ 57, "X" },
{ 58, "Y" },
{ 59, "Z" },
{ 66, "a" },
{ 67, "b" },
{ 68, "c" },
{ 69, "d" },
{ 70, "e" },
{ 71, "f" },
{ 72, "g" },
{ 73, "h" },
{ 74, "i" },
{ 75, "j" },
{ 76, "k" },
{ 77, "l" },
{ 78, "m" },
{ 79, "n" },
{ 80, "o" },
{ 81, "p" },
{ 82, "q" },
{ 83, "r" },
{ 84, "s" },
{ 85, "t" },
{ 86, "u" },
{ 87, "v" },
{ 88, "w" },
{ 89, "x" },
{ 90, "y" },
{ 91, "z" },
{ 104, "quotesingle" },
{ 105, "quotedblleft" },
{ 111, "endash" },
{ 116, "bullet" },
{ 119, "quotedblright" },
{ 137, "emdash" },
{ 170, "copyright" },
};
PDFErrorOr<Vector<DeprecatedFlyString>> CFF::parse_charset(Reader&& reader, size_t glyph_count)
{
Vector<DeprecatedFlyString> names;
auto resolve = [](SID sid) {
auto x = builtin_names.find(sid);
if (x == builtin_names.end()) {
dbgln("Cound't find string for SID {}, going with space", sid);
return DeprecatedFlyString("space");
}
return x->value;
};
auto format = TRY(reader.try_read<Card8>());
if (format == 0) {
for (u8 i = 0; i < glyph_count - 1; i++) {
SID sid = TRY(reader.try_read<BigEndian<SID>>());
TRY(names.try_append(resolve(sid)));
}
} else if (format == 1) {
while (names.size() < glyph_count - 1) {
auto first_sid = TRY(reader.try_read<BigEndian<SID>>());
int left = TRY(reader.try_read<Card8>());
for (u8 sid = first_sid; left >= 0; left--, sid++)
TRY(names.try_append(resolve(sid)));
}
}
return names;
}
PDFErrorOr<Vector<CFF::Glyph>> CFF::parse_charstrings(Reader&& reader, Vector<ByteBuffer> const& subroutines)
{
Vector<Glyph> glyphs;
TRY(parse_index(reader, [&](ReadonlyBytes const& charstring_data) -> PDFErrorOr<void> {
GlyphParserState state;
auto glyph = TRY(parse_glyph(charstring_data, subroutines, state, true));
return TRY(glyphs.try_append(glyph));
}));
return glyphs;
}
PDFErrorOr<Vector<u8>> CFF::parse_encoding(Reader&& reader)
{
Vector<u8> encoding_codes;
auto format = TRY(reader.try_read<Card8>());
if (format == 0) {
auto n_codes = TRY(reader.try_read<Card8>());
for (u8 i = 0; i < n_codes; i++) {
TRY(encoding_codes.try_append(TRY(reader.try_read<Card8>())));
}
} else if (format == 1) {
auto n_ranges = TRY(reader.try_read<Card8>());
for (u8 i = 0; i < n_ranges; i++) {
auto first_code = TRY(reader.try_read<Card8>());
int left = TRY(reader.try_read<Card8>());
for (u8 code = first_code; left >= 0; left--, code++)
TRY(encoding_codes.try_append(code));
}
} else
return error(DeprecatedString::formatted("Invalid encoding format: {}", format));
return encoding_codes;
}
template<typename OperatorT>
PDFErrorOr<void> CFF::parse_dict(Reader& reader, DictEntryHandler<OperatorT>&& handler)
{
Vector<DictOperand> operands;
while (reader.remaining() > 0) {
auto b0 = reader.read<u8>();
// A command
if (b0 <= 21) {
auto op = TRY(parse_dict_operator<OperatorT>(b0, reader));
TRY(handler(op, operands));
operands.clear();
continue;
}
// An operand
TRY(operands.try_append(TRY(load_dict_operand(b0, reader))));
}
return {};
}
template PDFErrorOr<void> CFF::parse_dict<CFF::TopDictOperator>(Reader&, DictEntryHandler<TopDictOperator>&&);
template PDFErrorOr<void> CFF::parse_dict<CFF::PrivDictOperator>(Reader&, DictEntryHandler<PrivDictOperator>&&);
template<typename OperatorT>
PDFErrorOr<OperatorT> CFF::parse_dict_operator(u8 b0, Reader& reader)
{
VERIFY(b0 <= 21);
if (b0 != 12)
return OperatorT { (int)b0 };
auto b1 = TRY(reader.try_read<u8>());
return OperatorT { b0 << 8 | b1 };
}
template PDFErrorOr<CFF::TopDictOperator> CFF::parse_dict_operator(u8, Reader&);
PDFErrorOr<void> CFF::parse_index(Reader& reader, IndexDataHandler&& data_handler)
{
Card16 count = TRY(reader.try_read<BigEndian<Card16>>());
if (count == 0)
return {};
auto offset_size = TRY(reader.try_read<OffSize>());
if (offset_size == 1)
return parse_index_data<u8>(count, reader, data_handler);
if (offset_size == 2)
return parse_index_data<u16>(count, reader, data_handler);
if (offset_size == 4)
return parse_index_data<u32>(count, reader, data_handler);
VERIFY_NOT_REACHED();
}
template<typename OffsetType>
PDFErrorOr<void> CFF::parse_index_data(Card16 count, Reader& reader, IndexDataHandler& handler)
{
OffsetType last_data_end = 1;
auto offset_refpoint = reader.offset() + sizeof(OffsetType) * (count + 1) - 1;
for (u16 i = 0; i < count; i++) {
reader.save();
reader.move_by(sizeof(OffsetType) * i);
OffsetType data_start = reader.read<BigEndian<OffsetType>>();
last_data_end = reader.read<BigEndian<OffsetType>>();
auto data_size = last_data_end - data_start;
reader.move_to(offset_refpoint + data_start);
TRY(handler(reader.bytes().slice(reader.offset(), data_size)));
reader.load();
}
reader.move_to(offset_refpoint + last_data_end);
return {};
}
template PDFErrorOr<void> CFF::parse_index_data<u8>(Card16, Reader&, IndexDataHandler&);
template PDFErrorOr<void> CFF::parse_index_data<u16>(Card16, Reader&, IndexDataHandler&);
template PDFErrorOr<void> CFF::parse_index_data<u32>(Card16, Reader&, IndexDataHandler&);
// 4 DICT DATA, Table 3 Operand Encoding
int CFF::load_int_dict_operand(u8 b0, Reader& reader)
{
if (b0 >= 32 && b0 <= 246) {
return b0 - 139;
}
if (b0 >= 247 && b0 <= 250) {
auto b1 = reader.read<u8>();
return (b0 - 247) * 256 + b1 + 108;
}
if (b0 >= 251 && b0 <= 254) {
auto b1 = reader.read<u8>();
return -(b0 - 251) * 256 - b1 - 108;
}
if (b0 == 28) {
auto b1 = reader.read<u8>();
auto b2 = reader.read<u8>();
return b1 << 8 | b2;
}
if (b0 == 29) {
auto b1 = reader.read<u8>();
auto b2 = reader.read<u8>();
auto b3 = reader.read<u8>();
auto b4 = reader.read<u8>();
return b1 << 24 | b2 << 16 | b3 << 8 | b4;
}
VERIFY_NOT_REACHED();
}
float CFF::load_float_dict_operand(Reader& reader)
{
StringBuilder sb;
auto add_nibble = [&](char nibble) {
if (nibble < 0xa)
sb.append('0' + nibble);
else if (nibble == 0xa)
sb.append('.');
else if (nibble == 0xb)
sb.append('E');
else if (nibble == 0xc)
sb.append("E-"sv);
else if (nibble == 0xe)
sb.append('-');
};
while (true) {
auto byte = reader.read<u8>();
char nibble1 = (byte & 0xf0) >> 4;
char nibble2 = byte & 0x0f;
if (nibble1 == 0xf)
break;
add_nibble(nibble1);
if (nibble2 == 0xf)
break;
add_nibble(nibble2);
}
auto result = AK::StringUtils::convert_to_floating_point<float>(sb.string_view());
return result.release_value();
}
PDFErrorOr<CFF::DictOperand> CFF::load_dict_operand(u8 b0, Reader& reader)
{
if (b0 == 30)
return load_float_dict_operand(reader);
if (b0 >= 28)
return load_int_dict_operand(b0, reader);
return Error { Error::Type::MalformedPDF, DeprecatedString::formatted("Unknown CFF dict element prefix: {}", b0) };
}
}
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