LibFont: Move PSF code to separate file

This commit is contained in:
Bananymous 2024-06-06 16:45:01 +03:00
parent f43a7fdfb4
commit ffacff67cf
6 changed files with 278 additions and 241 deletions

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@ -4,6 +4,7 @@ project(libfont CXX)
set(LIBGUI_SOURCES
Font.cpp
PSF.cpp
)
add_custom_target(libfont-headers

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@ -1,9 +1,7 @@
#include <BAN/Debug.h>
#include <BAN/Endianness.h>
#include <BAN/ScopeGuard.h>
#include <BAN/UTF8.h>
#include <LibFont/Font.h>
#include <LibFont/PSF.h>
#if __is_kernel
#include <kernel/FS/VirtualFileSystem.h>
@ -11,22 +9,6 @@
#include <fcntl.h>
#define PSF1_MAGIC0 0x36
#define PSF1_MAGIC1 0x04
#define PSF1_MODE512 0x01
#define PSF1_MODEHASTAB 0x02
#define PSF1_MODEHASSEQ 0x04
#define PSF1_STARTSEQ 0xFFFE
#define PSF1_SEPARATOR 0xFFFF
#define PSF2_MAGIC0 0x72
#define PSF2_MAGIC1 0xB5
#define PSF2_MAGIC2 0x4A
#define PSF2_MAGIC3 0x86
#define PSF2_HAS_UNICODE_TABLE 0x01
#define PSF2_STARTSEQ 0xFE
#define PSF2_SEPARATOR 0xFF
#if __is_kernel
extern uint8_t _binary_font_prefs_psf_start[];
extern uint8_t _binary_font_prefs_psf_end[];
@ -39,7 +21,7 @@ namespace LibFont
BAN::ErrorOr<Font> Font::prefs()
{
size_t font_data_size = _binary_font_prefs_psf_end - _binary_font_prefs_psf_start;
return parse_psf1(BAN::ConstByteSpan(_binary_font_prefs_psf_start, font_data_size));
return load(BAN::ConstByteSpan(_binary_font_prefs_psf_start, font_data_size));
}
#endif
@ -48,10 +30,13 @@ namespace LibFont
BAN::Vector<uint8_t> file_data;
#if __is_kernel
{
auto inode = TRY(Kernel::VirtualFileSystem::get().file_from_absolute_path({ 0, 0, 0, 0 }, path, O_RDONLY)).inode;
TRY(file_data.resize(inode->size()));
TRY(inode->read(0, BAN::ByteSpan(file_data.span())));
}
#else
{
char path_buffer[PATH_MAX];
strncpy(path_buffer, path.data(), path.size());
path_buffer[path.size()] = '\0';
@ -74,204 +59,19 @@ namespace LibFont
return BAN::Error::from_errno(errno);
total_read += nread;
}
}
#endif
if (file_data.size() < 4)
return BAN::Error::from_errno(EINVAL);
if (file_data[0] == PSF1_MAGIC0 && file_data[1] == PSF1_MAGIC1)
return TRY(parse_psf1(BAN::ConstByteSpan(file_data.span())));
if (file_data[0] == PSF2_MAGIC0 && file_data[1] == PSF2_MAGIC1 && file_data[2] == PSF2_MAGIC2 && file_data[3] == PSF2_MAGIC3)
return TRY(parse_psf2(BAN::ConstByteSpan(file_data.span())));
return load(BAN::ConstByteSpan(file_data.span()));
}
BAN::ErrorOr<Font> Font::load(BAN::ConstByteSpan font_data)
{
if (is_psf1(font_data))
return TRY(parse_psf1(font_data));
if (is_psf2(font_data))
return TRY(parse_psf2(font_data));
return BAN::Error::from_errno(ENOTSUP);
}
BAN::ErrorOr<Font> Font::parse_psf1(BAN::ConstByteSpan font_data)
{
struct PSF1Header
{
uint8_t magic[2];
uint8_t mode;
uint8_t char_size;
};
if (font_data.size() < sizeof(PSF1Header))
return BAN::Error::from_errno(EINVAL);
const auto& header = font_data.as<const PSF1Header>();
uint32_t glyph_count = header.mode & PSF1_MODE512 ? 512 : 256;
uint32_t glyph_size = header.char_size;
uint32_t glyph_data_size = glyph_size * glyph_count;
if (font_data.size() < sizeof(PSF1Header) + glyph_data_size)
return BAN::Error::from_errno(EINVAL);
BAN::Vector<uint8_t> glyph_data;
TRY(glyph_data.resize(glyph_data_size));
memcpy(glyph_data.data(), font_data.data() + sizeof(PSF1Header), glyph_data_size);
BAN::HashMap<uint32_t, uint32_t> glyph_offsets;
TRY(glyph_offsets.reserve(glyph_count));
bool codepoint_redef = false;
bool codepoint_sequence = false;
if (header.mode & (PSF1_MODEHASTAB | PSF1_MODEHASSEQ))
{
uint32_t current_index = sizeof(PSF1Header) + glyph_data_size;
uint32_t glyph_index = 0;
while (current_index < font_data.size())
{
uint16_t lo = font_data[current_index];
uint16_t hi = font_data[current_index + 1];
uint16_t codepoint = (hi << 8) | lo;
if (codepoint == PSF1_STARTSEQ)
{
codepoint_sequence = true;
break;
}
else if (codepoint == PSF1_SEPARATOR)
{
glyph_index++;
}
else
{
if (glyph_offsets.contains(codepoint))
codepoint_redef = true;
else
TRY(glyph_offsets.insert(codepoint, glyph_index * glyph_size));
}
current_index += 2;
}
}
else
{
for (uint32_t i = 0; i < glyph_count; i++)
TRY(glyph_offsets.insert(i, i * glyph_size));
}
if (codepoint_redef)
dwarnln("Font contains multiple definitions for same codepoint(s)");
if (codepoint_sequence)
dwarnln("Font contains codepoint sequences (not supported)");
Font result;
result.m_glyph_offsets = BAN::move(glyph_offsets);
result.m_glyph_data = BAN::move(glyph_data);
result.m_width = 8;
result.m_height = header.char_size;
result.m_pitch = 1;
return result;
}
BAN::ErrorOr<Font> Font::parse_psf2(BAN::ConstByteSpan font_data)
{
struct PSF2Header
{
uint8_t magic[4];
BAN::LittleEndian<uint32_t> version;
BAN::LittleEndian<uint32_t> header_size;
BAN::LittleEndian<uint32_t> flags;
BAN::LittleEndian<uint32_t> glyph_count;
BAN::LittleEndian<uint32_t> glyph_size;
BAN::LittleEndian<uint32_t> height;
BAN::LittleEndian<uint32_t> width;
};
if (font_data.size() < sizeof(PSF2Header))
return BAN::Error::from_errno(EINVAL);
const auto& header = font_data.as<const PSF2Header>();
uint32_t glyph_data_size = header.glyph_count * header.glyph_size;
if (font_data.size() < glyph_data_size + header.header_size)
return BAN::Error::from_errno(EINVAL);
BAN::Vector<uint8_t> glyph_data;
TRY(glyph_data.resize(glyph_data_size));
memcpy(glyph_data.data(), font_data.data() + header.header_size, glyph_data_size);
BAN::HashMap<uint32_t, uint32_t> glyph_offsets;
TRY(glyph_offsets.reserve(400));
bool invalid_utf = false;
bool codepoint_redef = false;
bool codepoint_sequence = false;
uint8_t bytes[4] {};
uint32_t byte_index = 0;
if (header.flags & PSF2_HAS_UNICODE_TABLE)
{
uint32_t glyph_index = 0;
for (uint32_t i = glyph_data_size + header.header_size; i < font_data.size(); i++)
{
uint8_t byte = font_data[i];
if (byte == PSF2_STARTSEQ)
{
codepoint_sequence = true;
break;
}
else if (byte == PSF2_SEPARATOR)
{
if (byte_index)
{
invalid_utf = true;
byte_index = 0;
}
glyph_index++;
}
else
{
ASSERT(byte_index < 4);
bytes[byte_index++] = byte;
uint32_t len = BAN::UTF8::byte_length(bytes[0]);
if (len == 0)
{
invalid_utf = true;
byte_index = 0;
}
else if (len == byte_index)
{
uint32_t codepoint = BAN::UTF8::to_codepoint(bytes);
if (codepoint == BAN::UTF8::invalid)
invalid_utf = true;
else if (glyph_offsets.contains(codepoint))
codepoint_redef = true;
else
TRY(glyph_offsets.insert(codepoint, glyph_index * header.glyph_size));
byte_index = 0;
}
}
}
}
else
{
for (uint32_t i = 0; i < header.glyph_count; i++)
TRY(glyph_offsets.insert(i, i * header.glyph_size));
}
if (invalid_utf)
dwarnln("Font contains invalid UTF-8 codepoint(s)");
if (codepoint_redef)
dwarnln("Font contains multiple definitions for same codepoint(s)");
if (codepoint_sequence)
dwarnln("Font contains codepoint sequences (not supported)");
Font result;
result.m_glyph_offsets = BAN::move(glyph_offsets);
result.m_glyph_data = BAN::move(glyph_data);
result.m_width = header.width;
result.m_height = header.height;
result.m_pitch = header.glyph_size / header.height;
return result;
}
}

214
LibFont/PSF.cpp Normal file
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@ -0,0 +1,214 @@
#include <BAN/Debug.h>
#include <BAN/Endianness.h>
#include <BAN/UTF8.h>
#include <LibFont/PSF.h>
#define PSF1_MAGIC0 0x36
#define PSF1_MAGIC1 0x04
#define PSF1_MODE512 0x01
#define PSF1_MODEHASTAB 0x02
#define PSF1_MODEHASSEQ 0x04
#define PSF1_STARTSEQ 0xFFFE
#define PSF1_SEPARATOR 0xFFFF
#define PSF2_MAGIC0 0x72
#define PSF2_MAGIC1 0xB5
#define PSF2_MAGIC2 0x4A
#define PSF2_MAGIC3 0x86
#define PSF2_HAS_UNICODE_TABLE 0x01
#define PSF2_STARTSEQ 0xFE
#define PSF2_SEPARATOR 0xFF
namespace LibFont
{
bool is_psf1(BAN::ConstByteSpan font_data)
{
if (font_data.size() < 2)
return false;
return font_data[0] == PSF1_MAGIC0 && font_data[1] == PSF1_MAGIC1;
}
BAN::ErrorOr<Font> parse_psf1(BAN::ConstByteSpan font_data)
{
struct PSF1Header
{
uint8_t magic[2];
uint8_t mode;
uint8_t char_size;
};
if (font_data.size() < sizeof(PSF1Header))
return BAN::Error::from_errno(EINVAL);
const auto& header = font_data.as<const PSF1Header>();
uint32_t glyph_count = header.mode & PSF1_MODE512 ? 512 : 256;
uint32_t glyph_size = header.char_size;
uint32_t glyph_data_size = glyph_size * glyph_count;
if (font_data.size() < sizeof(PSF1Header) + glyph_data_size)
return BAN::Error::from_errno(EINVAL);
BAN::Vector<uint8_t> glyph_data;
TRY(glyph_data.resize(glyph_data_size));
memcpy(glyph_data.data(), font_data.data() + sizeof(PSF1Header), glyph_data_size);
BAN::HashMap<uint32_t, uint32_t> glyph_offsets;
TRY(glyph_offsets.reserve(glyph_count));
bool codepoint_redef = false;
bool codepoint_sequence = false;
if (header.mode & (PSF1_MODEHASTAB | PSF1_MODEHASSEQ))
{
uint32_t current_index = sizeof(PSF1Header) + glyph_data_size;
uint32_t glyph_index = 0;
while (current_index < font_data.size())
{
uint16_t lo = font_data[current_index];
uint16_t hi = font_data[current_index + 1];
uint16_t codepoint = (hi << 8) | lo;
if (codepoint == PSF1_STARTSEQ)
{
codepoint_sequence = true;
break;
}
else if (codepoint == PSF1_SEPARATOR)
{
glyph_index++;
}
else
{
if (glyph_offsets.contains(codepoint))
codepoint_redef = true;
else
TRY(glyph_offsets.insert(codepoint, glyph_index * glyph_size));
}
current_index += 2;
}
}
else
{
for (uint32_t i = 0; i < glyph_count; i++)
TRY(glyph_offsets.insert(i, i * glyph_size));
}
if (codepoint_redef)
dwarnln("Font contains multiple definitions for same codepoint(s)");
if (codepoint_sequence)
dwarnln("Font contains codepoint sequences (not supported)");
return Font(BAN::move(glyph_offsets), BAN::move(glyph_data), 8, header.char_size, 1);
}
bool is_psf2(BAN::ConstByteSpan font_data)
{
if (font_data.size() < 4)
return false;
return font_data[0] == PSF2_MAGIC0 && font_data[1] == PSF2_MAGIC1 && font_data[2] == PSF2_MAGIC2 && font_data[3] == PSF2_MAGIC3;
}
BAN::ErrorOr<Font> parse_psf2(BAN::ConstByteSpan font_data)
{
struct PSF2Header
{
uint8_t magic[4];
BAN::LittleEndian<uint32_t> version;
BAN::LittleEndian<uint32_t> header_size;
BAN::LittleEndian<uint32_t> flags;
BAN::LittleEndian<uint32_t> glyph_count;
BAN::LittleEndian<uint32_t> glyph_size;
BAN::LittleEndian<uint32_t> height;
BAN::LittleEndian<uint32_t> width;
};
if (font_data.size() < sizeof(PSF2Header))
return BAN::Error::from_errno(EINVAL);
const auto& header = font_data.as<const PSF2Header>();
uint32_t glyph_data_size = header.glyph_count * header.glyph_size;
if (font_data.size() < glyph_data_size + header.header_size)
return BAN::Error::from_errno(EINVAL);
BAN::Vector<uint8_t> glyph_data;
TRY(glyph_data.resize(glyph_data_size));
memcpy(glyph_data.data(), font_data.data() + header.header_size, glyph_data_size);
BAN::HashMap<uint32_t, uint32_t> glyph_offsets;
TRY(glyph_offsets.reserve(400));
bool invalid_utf = false;
bool codepoint_redef = false;
bool codepoint_sequence = false;
uint8_t bytes[4] {};
uint32_t byte_index = 0;
if (header.flags & PSF2_HAS_UNICODE_TABLE)
{
uint32_t glyph_index = 0;
for (uint32_t i = glyph_data_size + header.header_size; i < font_data.size(); i++)
{
uint8_t byte = font_data[i];
if (byte == PSF2_STARTSEQ)
{
codepoint_sequence = true;
break;
}
else if (byte == PSF2_SEPARATOR)
{
if (byte_index)
{
invalid_utf = true;
byte_index = 0;
}
glyph_index++;
}
else
{
ASSERT(byte_index < 4);
bytes[byte_index++] = byte;
uint32_t len = BAN::UTF8::byte_length(bytes[0]);
if (len == 0)
{
invalid_utf = true;
byte_index = 0;
}
else if (len == byte_index)
{
uint32_t codepoint = BAN::UTF8::to_codepoint(bytes);
if (codepoint == BAN::UTF8::invalid)
invalid_utf = true;
else if (glyph_offsets.contains(codepoint))
codepoint_redef = true;
else
TRY(glyph_offsets.insert(codepoint, glyph_index * header.glyph_size));
byte_index = 0;
}
}
}
}
else
{
for (uint32_t i = 0; i < header.glyph_count; i++)
TRY(glyph_offsets.insert(i, i * header.glyph_size));
}
if (invalid_utf)
dwarnln("Font contains invalid UTF-8 codepoint(s)");
if (codepoint_redef)
dwarnln("Font contains multiple definitions for same codepoint(s)");
if (codepoint_sequence)
dwarnln("Font contains codepoint sequences (not supported)");
return Font(BAN::move(glyph_offsets), BAN::move(glyph_data), header.width, header.height, header.glyph_size / header.height);
}
}

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@ -3,6 +3,7 @@
#include <BAN/ByteSpan.h>
#include <BAN/HashMap.h>
#include <BAN/StringView.h>
#include <BAN/Vector.h>
namespace LibFont
{
@ -10,7 +11,17 @@ namespace LibFont
class Font
{
public:
Font() = default;
Font(BAN::HashMap<uint32_t, uint32_t>&& glyph_offsets, BAN::Vector<uint8_t>&& glyph_data, uint32_t width, uint32_t height, uint32_t pitch)
: m_glyph_offsets(BAN::move(glyph_offsets))
, m_glyph_data(BAN::move(glyph_data))
, m_width(width)
, m_height(height)
, m_pitch(pitch)
{ }
static BAN::ErrorOr<Font> load(BAN::StringView path);
static BAN::ErrorOr<Font> load(BAN::ConstByteSpan font_data);
#if __is_kernel
static BAN::ErrorOr<Font> prefs();
#endif
@ -28,10 +39,6 @@ namespace LibFont
return m_glyph_data.data() + it->value;
}
private:
static BAN::ErrorOr<Font> parse_psf1(BAN::ConstByteSpan);
static BAN::ErrorOr<Font> parse_psf2(BAN::ConstByteSpan);
private:
BAN::HashMap<uint32_t, uint32_t> m_glyph_offsets;
BAN::Vector<uint8_t> m_glyph_data;

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@ -0,0 +1,14 @@
#pragma once
#include <LibFont/Font.h>
namespace LibFont
{
bool is_psf1(BAN::ConstByteSpan);
BAN::ErrorOr<Font> parse_psf1(BAN::ConstByteSpan);
bool is_psf2(BAN::ConstByteSpan);
BAN::ErrorOr<Font> parse_psf2(BAN::ConstByteSpan);
}

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@ -150,6 +150,7 @@ set(LIBELF_SOURCES
set(LIBFONT_SOURCES
../LibFont/Font.cpp
../LibFont/PSF.cpp
)
set(LIBINPUT_SOURCE